associatedReferences,associatedReferencesID,verbatimAcceptedNameUsage,acceptedNameUsageID,traitName,measurementType,measurementTypeID,measurementMethod,measurementRemarks,recordLevel,measurementValue,valueSummary,measurementUnit,sampleSizeValue,variance,varianceMeasure,recordNumber,catalogNumber,verbatimEventDate,eventDate,sex,lifeStage,locality,verbatimLatitude,verbatimLongitude,decimalLatitude,decimalLongitude,coordinateUncertaintyInMeters,country,stateProvince,county,habitat
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.ALGIDA,gbif:1357273,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.61,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2176,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.ALLEGHANIENSIS,gbif:1357228,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.96,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2177,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.ASTERIS,gbif:1356868,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.88,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2186,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.AURATA,gbif:1352579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.05,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2060,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.BISALICIS,gbif:1358013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.52,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2169,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.BREVIPALPIS,gbif:1357883,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.53,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2181,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.CARLINI,gbif:1357621,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2150,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.CEANOTHI,gbif:1357589,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.73,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2172,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.CHROMOTRICHA,gbif:1357394,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.69,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2178,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.CLARKELLA,gbif:1357338,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.39,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2175,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.COMMODA,gbif:1357248,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2149,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.CRATAGEI,gbif:1357081,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.4,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2151,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.CRESSONII,gbif:1357020,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.72,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2146,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.DISTANS,gbif:1358278,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2187,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.DUNNINGI,gbif:1358199,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.51,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2163,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.ERIGENIAE*,gbif:1358106,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2179,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.ERYTHROGASTER,gbif:1358091,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.75,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2161,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.ERYTHRONII,gbif:1358062,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2162,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.FLORENTINUM,gbif:1334802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.95,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2104,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.FORBESII,gbif:1357888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2166,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.FRAGILIS,gbif:1357847,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2183,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.FRIGIDA*,gbif:1357832,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.01,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2155,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.GERANII,gbif:1357656,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.66,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2159,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.HIPPOTES,gbif:1357400,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.87,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2145,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.HIRTICINCTA,gbif:1357383,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.55,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2143,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.IMITATRIX,gbif:1357223,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2173,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.INTEGRA,gbif:1357168,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.52,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2174,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.MANDIBULARIS*,gbif:1358021,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.17,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2158,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.MANICATUM,gbif:1334821,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.13,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2102,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.METALLICA,gbif:1353091,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2063,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.MILWAUKIENSIS,gbif:1357746,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.11,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2153,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.MISERABILIS,gbif:1357679,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.56,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2152,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.MORISONELLA,gbif:1357530,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.93,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2160,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.NASSONI,gbif:1357506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.65,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2167,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.NIGRAE,gbif:1357360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2147,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.NIVALIS,gbif:1357243,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.75,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2148,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.NUBECULA,gbif:1357197,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.95,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2182,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.OBLONGATUM,gbif:1334902,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2103,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.PERPLEXA*,gbif:1358224,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2156,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.PERSIMULATA,gbif:1358193,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.31,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2164,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.PLATYPARIA,gbif:1357608,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2185,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.PURA,gbif:1352791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.55,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2061,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.REGULARIS,gbif:1357735,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.53,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2189,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.ROBERTSONI,gbif:1357649,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.69,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2170,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.RUFOSIGNATA,gbif:1357510,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.57,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2188,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.RUGOSA,gbif:1357496,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.28,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2165,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.SIGMUNDI,gbif:1357247,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2184,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.SIMPLEX,gbif:1357232,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.01,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2190,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.SPIREANA,gbif:1357051,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.66,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2168,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.TERMINALIS,gbif:5040457,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.04,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2083,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.TEXANA,gbif:5042859,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.73,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2064,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.VICINA,gbif:1357790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.35,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2154,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.VIRESCENS,gbif:5042879,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.39,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2062,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.WHEELERI,gbif:1357536,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2144,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.WILKELLA,gbif:1358128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.95,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2171,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.WSCRIPTA,gbif:1357501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2180,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,A.ZIZIEA,gbif:1357441,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2157,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Acamptopoeum prinii,gbif:1355842,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2,mean,mm,38,NA,NA,NA,1,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Acanthopus palmatus,gbif:5975278,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5,mean,mm,10,NA,NA,NA,2,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.93,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.93,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.08,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.92,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.86,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.81,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.96,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.99,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.81,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.88,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.87,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.85,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.9,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.889,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.996,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.795,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon angelicus,gbif:5042862,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.01,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.91,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.93,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.88,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon melliventris,gbif:5042878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.02,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon obliquus,gbif:5042867,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.993,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon sericeus,gbif:5042857,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.1,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Agapostemon sericeus,gbif:5042857,body size,body size,,NA,NA,species,9.41,mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon sericeus,gbif:5042857,body size,front wing length,NA,NA,NA,species,6.5,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon sericeus,gbif:5042857,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon sericeus,gbif:5042857,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.7,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Agapostemon sericeus,gbif:5042857,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Agapostemon splendens,gbif:5042888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.38,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon splendens,gbif:5042888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.658,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon splendens,gbif:5042888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.501,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon texanus,gbif:5042859,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,10,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Agapostemon texanus,gbif:5042859,body size,body size,,NA,NA,species,10,mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon texanus,gbif:5042859,body size,front wing length,NA,NA,NA,individual,7.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon texanus,gbif:5042859,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon texanus,gbif:5042859,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Agapostemon texanus,gbif:5042859,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Agapostemon texanus,gbif:5042859,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.06,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Agapostemon texanus,gbif:5042859,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.77,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon virescens,gbif:5042879,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11.3,mean,mm,76,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Agapostemon virescens,gbif:5042879,body size,body size,,NA,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon virescens,gbif:5042879,body size,front wing length,NA,NA,NA,species,8.2,mean,mm,76,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon virescens,gbif:5042879,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,76,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Agapostemon virescens,gbif:5042879,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.4,mean,mm,76,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Agapostemon virescens,gbif:5042879,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,2.27,community-weighted mean,mm,8,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Agapostemon virescens,gbif:5042879,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.16,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Agapostemon virescens,gbif:5042879,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.308,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Agapostemon_virescens,gbif:5042879,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Aglae caerulea,gbif:5040098,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5,mean,mm,15,NA,NA,NA,3,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Alepidosceles filitarsis (Vachal),gbif:1344037,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.7,mean,mm,6,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Alepidosceles imitatrix,gbif:1344038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.46,mean,mm,12,NA,NA,NA,4,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Alepidosceles imitatrix (Schrottky),gbif:1344038,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.9,single observation,mm,NA,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Allodape Lepeletier and Serville,gbif:1340735,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.18,single observation,mm,NA,NA,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,woodlands
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Allodape tridentipes COCKERELL 1933,gbif:5039682,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.17,mean,mm,14,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Allodape tridentipes COCKERELL 1933,gbif:5039682,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.48,mean,mm,14,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Amegilla albigena,gbif:1339907,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.02,mean,mm,14,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Amegilla Friese,gbif:1339775,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.36,mean,mm,2,0.035,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Amegilla garrula,gbif:1339863,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.28,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Amegilla quadrifasciata (de Villers, 1789)",gbif:1340000,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,12.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Amegilla slaviae,gbif:1339840,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.91,mean,mm,5,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Amegilla sp.,gbif:1339775,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,15.88,mean,mm,NA,0.91,std error,12,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Amegilla sp.,gbif:1339775,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,8.33,mean,mm,NA,0.18,std error,12,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Amegilla sp.,gbif:1339775,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,3.7,mean,mm,NA,0.21,std error,12,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Amegilla sp.,gbif:1339775,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,9.51,mean,mm,NA,0.3,std error,12,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Amegilla sp.,gbif:1339775,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,12.37,mean,mm,NA,0.43,std error,12,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Amegilla spilostoma BROOKS 1988,gbif:1339909,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.59,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Amegilla spilostoma BROOKS 1988,gbif:1339909,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,5.33,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Amegilla whiteheadi,gbif:1339844,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,NA,NA,NA,B01,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Amegilla whiteheadi,gbif:1339844,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.5,mean,mm,NA,NA,NA,B01,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Amgeilla quadrifasciata,gbif:1340000,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.8,mean,mm,8,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Ancyloscelis apiformis,gbif:5039694,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5,mean,mm,50,NA,NA,NA,5,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena 2,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.422,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena 2,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.316,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena 3,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.225,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena aeneiventris,gbif:1357691,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.86,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Andrena aeneiventris Morawitz, 1872",gbif:1357691,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.5,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena aerinifrons Dours, 1873",gbif:1356889,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.59,mean,mm,6,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena agilissima,gbif:1356870,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.94,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena alfkenella,gbif:1357170,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.33,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena algida,gbif:1357273,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Andrena alleghaniensis,gbif:1357228,body size,body size,,NA,NA,species,9.5,mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena alleghaniensis,gbif:1357228,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena amphibola,,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.459183642,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena anatolis,gbif:1357183,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.52,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena anatolis,gbif:1357183,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.58,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena angustior,gbif:1357490,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.88,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena angustior (Kirby, 1802)",gbif:1357490,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.59,mean,mm,4,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena angustitarsata,gbif:1357077,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena anisochlora,gbif:1357062,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.93,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena arabis,gbif:1356958,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena arabis,gbif:1356958,body size,front wing length,NA,NA,NA,individual,7.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena arabis,gbif:1356958,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena arabis,gbif:1356958,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena ardis,gbif:1356927,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.08,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Andrena asteris,gbif:1356868,body size,body size,,NA,NA,species,13,mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena astragali,gbif:1358373,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.948051875,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena atypica,gbif:1358331,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena atypica,gbif:1358331,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.29,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena atypica,gbif:1358331,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.35,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena auricoma,gbif:1358318,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.62,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena barbilabris,gbif:1358165,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.46,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena barbilabris,gbif:1358165,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.34,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena barbilabris,gbif:1358165,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.78,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena berberidis,gbif:1358117,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.454545363,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena bicolor,gbif:1356887,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,10.57,mean,mm,5,0.24,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena bicolor,gbif:1356887,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena bicolor,gbif:1356887,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.41,mean,mm,NA,0.11,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena bicolor,gbif:1356887,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,179,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena bicolor,gbif:1356887,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.03,mean,mm,NA,0.05,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena bicolor,gbif:1356887,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,1,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena bicolor,gbif:1356887,body size,thorax length,NA,mean thorax length,NA,species,7,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena bicolor,gbif:1356887,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,1,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena bicolor Fabricius 1775,gbif:1356887,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.1,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena bicolor Fabricius, 1775",gbif:1356887,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.04,mean,mm,10,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena bimaculata,gbif:1357005,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.72,mean,mm,5,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena blüthgeni Stöckert 1930,gbif:6096944,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.8,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena blüthgeni Stöckert 1930,gbif:6096944,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.87,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena bucephala,gbif:1357239,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.5,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena bucephala,gbif:1357239,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena bucephala,gbif:1357239,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.15,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena bucephala,gbif:1357239,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Andrena callopyrrha,gbif:1357553,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.34,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena candida,gbif:1357667,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.65,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena carantonica,gbif:1357950,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.62,mean,mm,NA,0.08,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena carantonica,gbif:1357950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.72,mean,mm,8,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena carantonica,gbif:1357950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,NA,0.31,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena carantonica,gbif:1357950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,2,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena carantonica,gbif:1357950,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,2,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena carantonica Pérez 1902,gbif:1357950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.98,mean,mm,4,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena carantonica Pérez, 1902",gbif:1357950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.28,mean,mm,5,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena carlini,gbif:1357621,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,12.2,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena carlini,gbif:1357621,body size,front wing length,NA,NA,NA,species,9.2,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena carlini,gbif:1357621,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena carlini,gbif:1357621,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,3.1,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena carlini,gbif:1357621,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena carlini,gbif:1357621,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.013605403,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena carolina,gbif:1357605,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena cerasifolii,gbif:1357562,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.65,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena cercocarpi,gbif:1357547,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.66,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena chalybioides,gbif:1357497,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.75,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena chlorogaster,gbif:1357437,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.24,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena chrysoceles,gbif:1358259,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,10.84,mean,mm,5,0.13,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena chrysoceles,gbif:1358259,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena chrysosceles,gbif:1358259,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.97,mean,mm,21,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena chrysosceles,gbif:1358259,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena chrysosceles (Kirby 1802),gbif:1358259,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.04,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena chrysosceles (Kirby 1802),gbif:1358259,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.04,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena chrysosceles (Kirby 1802),gbif:1358259,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,10,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena chrysosceles (Kirby 1802),gbif:1358259,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,2.1,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena chrysosceles (Kirby, 1802)",gbif:1358259,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.84,mean,mm,19,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena cineraria,gbif:1358088,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,14.23,mean,mm,5,0.17,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena cineraria,gbif:1358088,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,11.32,mean,mm,5,0.25,std error,NA,NA,April and June over three field seasons (2014–2016),NA,male,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena cineraria,gbif:1358088,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,12.93,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena cineraria,gbif:1358088,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena cineraria,gbif:1358088,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,male,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena cineraria,gbif:1358088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.76,mean,mm,423,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena cineraria,gbif:1358088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,3,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena cineraria,gbif:1358088,body size,thorax length,NA,mean thorax length,NA,species,12,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena cineraria,gbif:1358088,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,3,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena cineraria (Linnaeus 1758),gbif:1358088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.94,mean,mm,6,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena cineraria (Linnaeus 1758),gbif:1358088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.94,mean,mm,6,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena cineraria (Linnaeus 1758),gbif:1358088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.94,mean,mm,8,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena cineraria (Linnaeus 1758),gbif:1358088,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.98,mean,mm,6,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena cineraria (Linnaeus, 1758)",gbif:1358088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.59,mean,mm,4,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena clarkella,gbif:1357338,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,4,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena clarkella,gbif:1357338,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,4,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena coitana,gbif:1357215,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.12,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena coitana,gbif:1357215,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena coitana,gbif:1357215,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,5,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena coitana,gbif:1357215,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,5,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena coitana (Kirby 1802),gbif:1357215,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.7,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena combaella Warncke, 1966",gbif:1358023,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.34,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena combinata,gbif:1358177,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.14,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena commoda,gbif:1357248,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11.1,mean,mm,11,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena commoda,gbif:1357248,body size,front wing length,NA,NA,NA,species,9.4,mean,mm,11,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena commoda,gbif:1357248,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,50-75,mean,percentage,11,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena commoda,gbif:1357248,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.7,mean,mm,11,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Andrena commoda,gbif:1357248,body size,undefined,NA,NA,NA,species,11,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena crataegi,gbif:1357081,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena cressonii,gbif:1357020,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10,mean,mm,68,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena cressonii,gbif:1357020,body size,front wing length,NA,NA,NA,species,7.4,mean,mm,68,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena cressonii,gbif:1357020,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,68,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena cressonii,gbif:1357020,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.3,mean,mm,68,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena cressonii,gbif:1357020,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena cressonii,gbif:1357020,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.75,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena cuneilabris,gbif:1356932,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.78,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena curvana,gbif:1357219,body size,thorax length,NA,mean thorax length,NA,species,7.6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena curvungula,gbif:1357234,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.38,mean,mm,28,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena danuvia Stöckert 1950,gbif:8950050,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.46,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena danuvia Stöckert 1950,gbif:8950050,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.52,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena decipiens,gbif:1356936,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.61,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Andrena decipiens Schenck, 1861",gbif:1356936,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,12.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Andrena delicatula,gbif:1357513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.57,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena denticulata,gbif:1357548,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,6,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena denticulata,gbif:1357548,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,6,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena distinguenda,gbif:1357737,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.68,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena distinguenda,gbif:1357737,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.68,mean,mm,12,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena dorsata,gbif:1357872,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,11.09,mean,mm,5,0.19,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena dorsata,gbif:1357872,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.8,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena dorsata,gbif:1357872,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena dorsata,gbif:1357872,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.03,mean,mm,111,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena dorsata,gbif:1357872,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena dorsata (Kirby 1802),gbif:1357872,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.9,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena dorsata (Kirby 1802),gbif:1357872,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.9,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena dorsata (KIRBY 1802),gbif:1357872,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.04,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena dorsata (KIRBY 1802),gbif:1357872,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.04,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena dorsata (Kirby 1802),gbif:1357872,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,1.96,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena dorsata (KIRBY 1802),gbif:1357872,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.11,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena dorsata (Kirby, 1802)",gbif:1357872,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.04,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena erigeniae,gbif:1358106,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,8.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena erigeniae,gbif:1358106,body size,front wing length,NA,NA,NA,individual,7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena erigeniae,gbif:1358106,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena erigeniae,gbif:1358106,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena evoluta,gbif:1358018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.988130089,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena fabrella,gbif:1357476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.63,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena falsifica,gbif:1356971,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,18,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena falsifica Perkins, 1915",gbif:1356971,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.44,mean,mm,15,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena ferox,gbif:1357315,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.88,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena ferrugineicrus Dours, 1872",gbif:1357107,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena flavipes,gbif:1357156,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,12.11,mean,mm,5,0.18,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena flavipes,gbif:1357156,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena flavipes,gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena flavipes,gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.36,mean,mm,351,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena flavipes,gbif:1357156,body size,thorax length,NA,mean thorax length,NA,species,10,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena flavipes (Panzer 1799),gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,29,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena flavipes Panzer 1799,gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,29,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena flavipes Panzer 1799,gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,22,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,Andrena flavipes Panzer 1799,gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.08,mean,mm,17,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), southern Spain (Montilla Moriles in Andalusia; 37°35′N, 4°38′W), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",NA,NA,NA,NA,NA,Austria; Spain; France; Romania,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena flavipes Panzer 1799,gbif:1357156,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.55,mean,mm,29,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena flavipes PANZER 1800,gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.12,mean,mm,19,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena flavipes PANZER 1800,gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.12,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena flavipes PANZER 1800,gbif:1357156,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.19,mean,mm,19,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Andrena flavipes Panzer, 1799",gbif:1357156,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,11.5,mean,mm,11,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena flavipes Panzer, 1799",gbif:1357156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.09,mean,mm,28,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena florea,gbif:1357334,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.43,mean,mm,24,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena florentina Magretti, 1883",gbif:1357061,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.41,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena floricola,gbif:1357362,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena forbesii,gbif:1357888,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena forbesii,gbif:1357888,body size,front wing length,NA,NA,NA,species,7.6,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena forbesii,gbif:1357888,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena forbesii,gbif:1357888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.3,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena forbesii,gbif:1357888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena fucata,gbif:1357543,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,7,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena fucata,gbif:1357543,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena fucata,gbif:1357543,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,7,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena fucata,gbif:1357543,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.5,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena fucata Smith 1847,gbif:1357543,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.6,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena fucata Smith, 1847",gbif:1357543,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.13,mean,mm,18,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena fulva,gbif:9805254,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,13.97,mean,mm,5,0.22,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena fulva,gbif:9805254,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.46,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena fulva,gbif:9805254,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,80%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena fulva,gbif:9805254,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.78,mean,mm,40,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena fulva (Müller 1766),gbif:9805254,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.95,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena fulva (Müller 1766),gbif:9805254,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.95,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena fulva (Müller 1766),gbif:9805254,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.95,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena fulva (Müller 1766),gbif:9805254,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,2.99,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena fulvago,gbif:1357646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.06,mean,mm,38,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena fulvago,gbif:1357646,body size,thorax length,NA,mean thorax length,NA,species,8.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena fulvago (CHRIST 1791),gbif:1357646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.15,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena fulvago (CHRIST 1791),gbif:1357646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.15,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena fulvago (CHRIST 1791),gbif:1357646,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.22,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena fulvago (Christ, 1791)",gbif:1357646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.11,mean,mm,6,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena fulvata,gbif:1357663,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.97,mean,mm,27,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena fulvata,gbif:1357663,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena fulvata,gbif:1357663,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.3,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena fulvida,gbif:1357732,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,8,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena fulvida,gbif:1357732,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,8,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena fulvida Schenck 1983,gbif:1357732,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.55,mean,mm,2,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena fuscipes,gbif:1357812,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,9,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena fuscipes,gbif:1357812,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,9,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena gelriae,gbif:1358024,body size,thorax length,NA,mean thorax length,NA,species,8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena geranii,gbif:1357656,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena geranii,gbif:1357656,body size,front wing length,NA,NA,NA,individual,6.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena geranii,gbif:1357656,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena geranii,gbif:1357656,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena gnaphalii,gbif:1357627,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.92,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena gnaphalii,gbif:1357627,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.98,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena granulosa,gbif:1357636,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.11,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena gravida,gbif:1358314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.59,mean,mm,63,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena gravida,gbif:1358314,body size,thorax length,NA,mean thorax length,NA,species,11.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena gravida (Imhoff 1832),gbif:1358314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.9,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena gravida Imhoff 1832,gbif:1358314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.9,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena gravida Imhoff 1832,gbif:1358314,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,2.95,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena gravida IMHOFF 1833,gbif:1358314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.82,mean,mm,9,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena gravida IMHOFF 1833,gbif:1358314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.82,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena gravida IMHOFF 1833,gbif:1358314,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.89,mean,mm,9,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena gravida Imhoff, 1832",gbif:1358314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.4,mean,mm,8,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena gravida Imhoff, 1832",gbif:1358314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.82,mean,mm,5,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena haemorhoa,gbif:1356981,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,12.15,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena haemorrhoa,gbif:1356981,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,12.8,mean,mm,5,0.22,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena haemorrhoa,gbif:1356981,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,11,mean,mm,5,0.45,std error,NA,NA,April and June over three field seasons (2014–2016),NA,male,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena haemorrhoa,gbif:1356981,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,85%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena haemorrhoa,gbif:1356981,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,male,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena haemorrhoa,gbif:1356981,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.4,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena haemorrhoa,gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.64,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena haemorrhoa,gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.63,mean,mm,108,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena haemorrhoa,gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.43,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena haemorrhoa,gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,10,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena haemorrhoa,gbif:1356981,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena haemorrhoa,gbif:1356981,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.8,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena haemorrhoa,gbif:1356981,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,10,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena haemorrhoa,gbif:1356981,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.5,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena haemorrhoa (Fabricius 1781),gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.44,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena haemorrhoa (Fabricius 1781),gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.44,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena haemorrhoa (Fabricius 1781),gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.44,mean,mm,15,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena haemorrhoa (FABRICIUS 1781),gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.56,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena haemorrhoa (Fabricius 1781),gbif:1356981,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.5,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena haemorrhoa (FABRICIUS 1781),gbif:1356981,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.63,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena haemorrhoa (Fabricius, 1781)",gbif:1356981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.33,mean,mm,16,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena hattorfiana,gbif:1357364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.71,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena hattorfiana,gbif:1357364,body size,thorax length,NA,mean thorax length,NA,species,13,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena helvola,gbif:1357179,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.09,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena helvola,gbif:1357179,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,11,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena helvola,gbif:1357179,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,11,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena helvola (Linnaeus 1758),gbif:1357179,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,2,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena helvola (Linnaeus, 1758)",gbif:1357179,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.71,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena hippotes,gbif:1357400,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,8.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena hippotes,gbif:1357400,body size,front wing length,NA,NA,NA,individual,7.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena hippotes,gbif:1357400,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena hippotes,gbif:1357400,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena hippotes,gbif:1357400,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena humilis,gbif:1357477,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.4,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena humilis,gbif:1357477,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.23,mean,mm,6,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena humilis Imhoff, 1832",gbif:1357477,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,2.68,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena hypoleuca,gbif:1357328,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena illini,gbif:1357284,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,13.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena illini,gbif:1357284,body size,front wing length,NA,NA,NA,individual,12.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena illini,gbif:1357284,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena illini,gbif:1357284,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,3.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena illinoiensis,gbif:1357256,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.257,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena illinoiensis,gbif:1357256,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.257,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena imitatrix,gbif:1357223,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.3,mean,mm,9,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena imitatrix,gbif:1357223,body size,front wing length,NA,NA,NA,species,6.7,mean,mm,9,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena imitatrix,gbif:1357223,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,9,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena imitatrix,gbif:1357223,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.2,mean,mm,9,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena imitatrix,gbif:1357223,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena impunctata,gbif:1358228,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena intermedia,gbif:1357894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,12,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena intermedia,gbif:1357894,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,12,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena intermedia Thomson, 1870",gbif:1357894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,2.15,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena labialis,gbif:1357222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena labialis,gbif:1357222,body size,thorax length,NA,mean thorax length,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena labialis (Kirby 1802),gbif:1357222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.8,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena labialis (Kirby 1802),gbif:1357222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.8,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena labialis (KIRBY 1802),gbif:1357222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.32,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena labialis (KIRBY 1802),gbif:1357222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.32,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena labialis (Kirby 1802),gbif:1357222,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,2.85,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena labialis (KIRBY 1802),gbif:1357222,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.39,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena labialis (Kirby, 1802)",gbif:1357222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.66,mean,mm,2,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena labialis (Kirby, 1802)",gbif:1357222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena labiata,gbif:1357207,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.78,mean,mm,10,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena labiata Fabricius 1781,gbif:1357207,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,2,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena labiata Fabricius, 1781",gbif:1357207,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.72,mean,mm,5,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena lagopus,gbif:1357100,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.34,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena lagopus,gbif:1357100,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.34,mean,mm,78,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena lapponica,gbif:1357056,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.5,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena lapponica,gbif:1357056,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.33,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena lapponica,gbif:1357056,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,13,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena lapponica,gbif:1357056,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,13,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena lathyri,gbif:1357026,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.68,mean,mm,5,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena lathyri,gbif:1357026,body size,thorax length,NA,mean thorax length,NA,species,11,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena lathyri (Alfken 1899),gbif:1357026,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.44,mean,mm,6,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena lathyri Alfken 1899,gbif:1357026,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.44,mean,mm,6,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena lathyri Alfken 1899,gbif:1357026,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.44,mean,mm,5,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena lathyri Alfken 1899,gbif:1357026,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.5,mean,mm,12,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena longibarbis Perez, 1895",gbif:1357980,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.59,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Andrena luridiloma,gbif:1357864,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.95,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena marginata,gbif:1357540,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.95,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Andrena mediocalens,gbif:1357431,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.21,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena medionitens,gbif:1357954,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.857142833,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena melanochroa,gbif:1357937,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.2,mean,mm,14,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena melanochroa,gbif:1357937,body size,front wing length,NA,NA,NA,species,4.7,mean,mm,14,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena melanochroa,gbif:1357937,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,14,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena melanochroa,gbif:1357937,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.3,mean,mm,14,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena melanochroa,gbif:1357937,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.281385233,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena merriami,gbif:1357865,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.868274513,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena mesillae,gbif:1357851,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.474,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena mesillae,gbif:1357851,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.521,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena milwaukeensis,gbif:1357746,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.537700203,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena minutoloides,gbif:1356982,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.39,mean,mm,85,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena minutula,gbif:1357013,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,7.69,mean,mm,5,0.18,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena minutula,gbif:1357013,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,60%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena minutula,gbif:1357013,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.28,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena minutula,gbif:1357013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,154,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena minutula,gbif:1357013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.32,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena minutula,gbif:1357013,body size,thorax length,NA,mean thorax length,NA,species,6.3,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena minutula (Kirby 1802),gbif:1357013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,12,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena minutula (Kirby 1802),gbif:1357013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,12,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena minutula (Kirby 1802),gbif:1357013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,13,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena minutula (Kirby 1802),gbif:1357013,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,1.44,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena minutula (Kirby, 1802)",gbif:1357013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.46,mean,mm,52,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena minutula (KIRBY) 1802,gbif:1357013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.21,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena minutula (KIRBY) 1802,gbif:1357013,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.21,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena minutula (KIRBY) 1802,gbif:1357013,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.28,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena minutuloides,gbif:1356982,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.2,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena minutuloides,gbif:1356982,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena minutuloides,gbif:1356982,body size,thorax length,NA,mean thorax length,NA,species,7,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena minutuloides,gbif:1356982,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,0.8,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena minutuloides,gbif:1356982,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena minutuloides (Perkins 1914),gbif:1356982,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.4,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena minutuloides Perkins 1914,gbif:1356982,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.4,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena minutuloides Perkins 1914,gbif:1356982,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.46,mean,mm,13,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena minutuloides Perkins, 1914",gbif:1356982,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.31,mean,mm,34,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena miranda,gbif:1357713,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena miranda,gbif:1357713,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena miranda,gbif:1357713,body size,front wing length,NA,NA,NA,individual,7.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena miranda,gbif:1357713,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena miranda,gbif:1357713,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.9,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena miranda,gbif:1357713,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.209677384,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena misella,gbif:1357698,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.93,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena miserabilis,gbif:1357679,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Andrena miserabilis,gbif:1357679,body size,undefined,NA,NA,NA,species,8.2,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena mitis,gbif:1356909,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.31,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena morrisonella,gbif:1357530,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.8,mean,mm,11,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena morrisonella,gbif:1357530,body size,front wing length,NA,NA,NA,species,6.6,mean,mm,11,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena morrisonella,gbif:1357530,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,11,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena morrisonella,gbif:1357530,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.2,mean,mm,11,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena nana,gbif:1358011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.58,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena nanula,gbif:1357958,body size,thorax length,NA,mean thorax length,NA,species,5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena nasonii,gbif:1357506,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.1,mean,mm,247,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena nasonii,gbif:1357506,body size,front wing length,NA,NA,NA,species,5.9,mean,mm,247,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena nasonii,gbif:1357506,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,50-75,mean,percentage,247,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena nasonii,gbif:1357506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.9,mean,mm,247,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena nasonii,gbif:1357506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Andrena nasonii,gbif:1357506,body size,undefined,NA,NA,NA,species,8,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena nigoaenea,gbif:1357665,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,80%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena nigriceps,gbif:1357734,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,14,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena nigriceps,gbif:1357734,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,14,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena nigrihirta,gbif:1357302,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.759740194,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena nigroaena,gbif:1357665,body size,thorax length,NA,mean thorax length,NA,species,14,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena nigroaenea,gbif:1357665,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,14.66,mean,mm,5,0.18,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena nigroaenea,gbif:1357665,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,12.97,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena nigroaenea,gbif:1357665,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.84,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena nigroaenea,gbif:1357665,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.84,mean,mm,23,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena nigroaenea (Kirby 1802),gbif:1357665,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.98,mean,mm,13,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena nigroaenea (Kirby 1802),gbif:1357665,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.98,mean,mm,13,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena nigroaenea (Kirby 1802),gbif:1357665,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.98,mean,mm,28,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena nigroaenea (Kirby 1802),gbif:1357665,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.02,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena nigroaenea (Kirby, 1802)",gbif:1357665,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.46,mean,mm,28,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena nigrocaerulea,gbif:1357272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.91,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena nigrocaerulea,gbif:1357272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.980560221,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena nigroolivacea,gbif:1357635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.46,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena nitida,gbif:1357545,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,15,mean,mm,5,0.27,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena nitida,gbif:1357545,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,12.9,mean,mm,5,0.1,std error,NA,NA,April and June over three field seasons (2014–2016),NA,male,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena nitida,gbif:1357545,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,85%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Andrena nitida,gbif:1357545,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,85%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,male,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena nitida,gbif:1357545,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.71,mean,mm,NA,0.01,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena nitida,gbif:1357545,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.97,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena nitida,gbif:1357545,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.92,mean,mm,NA,0.02,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena nitida (Müller 1776),gbif:1357545,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.9,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena nitida (Müller 1776),gbif:1357545,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.9,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena nitida (Müller 1776),gbif:1357545,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.9,mean,mm,7,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena nitida (Müller 1776),gbif:1357545,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.95,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena nitida (Müller, 1776)",gbif:1357545,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.62,mean,mm,27,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena nitida (MÜLLER 1776),gbif:1357545,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.04,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena nitida (MÜLLER 1776),gbif:1357545,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.1,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena nitida (Muller, 1776)",gbif:1357545,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.02,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena nitidiscula,gbif:1357495,body size,thorax length,NA,mean thorax length,NA,species,10,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena nitidiuscula,gbif:1357495,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.97,mean,mm,20,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena nitidula,gbif:1357480,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.58,mean,mm,5,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena notophila COCKERELL 1933,gbif:1357408,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.62,mean,mm,611,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena notophila COCKERELL 1933,gbif:1357408,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.69,mean,mm,611,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena nycthemera,gbif:1357262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.51,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena orthocarpi,gbif:1357048,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena osioides,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena osioides,gbif:1345710,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.38,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena ovatula,gbif:1358376,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.24,mean,mm,65,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena ovatula,gbif:1358376,body size,thorax length,NA,mean thorax length,NA,species,11,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena ovatula (Kirby 1802),gbif:1358376,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena ovatula (Kirby 1802),gbif:1358376,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena ovatula (Kirby 1802),gbif:1358376,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,7,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena ovatula (KIRBY 1802),gbif:1358376,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.07,mean,mm,37,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena ovatula (KIRBY 1802),gbif:1358376,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.07,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena ovatula (Kirby 1802),gbif:1358376,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.26,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena ovatula (KIRBY 1802),gbif:1358376,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.14,mean,mm,37,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena ovatula (Kirby, 1802)",gbif:1358376,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.07,mean,mm,22,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; France; Romania,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena pallidifovea,gbif:1356997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.01,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena pallidifovea,gbif:1356997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.980519406,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena pandellei,gbif:1358227,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.17,mean,mm,8,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena parachalybea,gbif:1356926,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena parachalybea,gbif:1356926,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.24,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena paucisquama,gbif:1357976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.13,mean,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena pecosana,gbif:1358389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena pecosana,gbif:1358389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.24,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena pecosana,gbif:1358389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena pecosana,gbif:1358389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.27,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena pecosana,gbif:1358389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.2,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena pecosana,gbif:1358389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Andrena pellucens Pérez, 1895",gbif:1357918,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.5,mean,mm,48,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena pensilis,gbif:1358303,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.64,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena perplexa,gbif:1358224,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11.8,mean,mm,32,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena perplexa,gbif:1358224,body size,front wing length,NA,NA,NA,species,9.5,mean,mm,32,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena perplexa,gbif:1358224,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,50-75,mean,percentage,32,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena perplexa,gbif:1358224,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.8,mean,mm,32,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena perplexa,gbif:1358224,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.39,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena personata,gbif:1358164,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.3,mean,mm,24,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena personata,gbif:1358164,body size,front wing length,NA,NA,NA,species,4.7,mean,mm,24,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena personata,gbif:1358164,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,24,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena personata,gbif:1358164,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.2,mean,mm,24,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena phaceliae,gbif:1358132,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.7,mean,mm,12,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena phaceliae,gbif:1358132,body size,front wing length,NA,NA,NA,species,6.3,mean,mm,12,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena phaceliae,gbif:1358132,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,12,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena phaceliae,gbif:1358132,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.9,mean,mm,12,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena piperi,gbif:1358100,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena piperi,gbif:1358100,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Andrena piperi,gbif:1358100,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.53,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena polita SMITH 1847,gbif:1357535,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.26,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena polita SMITH 1847,gbif:1357535,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.26,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena polita SMITH 1847,gbif:1357535,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.33,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena praecox,gbif:1357456,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,15,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena praecox,gbif:1357457,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,15,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena prima,gbif:1357973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.353,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena prima,gbif:1357973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.265,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena primulifrons,gbif:1357959,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.311,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Andrena primulifrons,gbif:1357959,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.378,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena propinqua,gbif:6096951,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,41,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena proxima,gbif:1357354,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.4,mean,mm,NA,0.06,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena proxima,gbif:1357354,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.67,mean,mm,NA,0.26,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena proxima,gbif:1357354,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena proxima (Kirby 1802),gbif:1357354,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena proxima (Kirby 1802),gbif:1357354,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena proxima (Kirby 1802),gbif:1357354,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,5,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena proxima (Kirby 1802),gbif:1357354,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,1.96,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena proxima (Kirby, 1802)",gbif:1357354,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.55,mean,mm,6,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena pruni,gbif:1357915,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena pruni,gbif:1357915,body size,front wing length,NA,NA,NA,individual,9,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena pruni,gbif:1357915,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,50-75,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena pruni,gbif:1357915,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena pusilla,gbif:1357043,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.39,mean,mm,68,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena pusilla Perez, 1903",gbif:1357043,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.1,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Spain (Montilla Moriles in Andalusia; 37°35′N, 4°38′W), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Spain; Romania,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena ranunculi,gbif:1358367,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.75,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena ranunculi,gbif:1358367,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.75,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena rhenana,gbif:1358231,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.17,mean,mm,35,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena robertsonii,gbif:1357649,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,8.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena robertsonii,gbif:1357649,body size,front wing length,NA,NA,NA,individual,5.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena robertsonii,gbif:1357649,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena robertsonii,gbif:1357649,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena ruficrus,gbif:1357952,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,16,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena ruficrus,gbif:1357952,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,16,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena rufizona,gbif:1357877,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena rufizona,gbif:1357877,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena rufula,gbif:1357835,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.13,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena rugosa,gbif:1357496,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,11.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena rugosa,gbif:1357496,body size,front wing length,NA,NA,NA,individual,7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena rugosa,gbif:1357496,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena rugosa,gbif:1357496,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena rugosa,gbif:1357496,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena saccata,gbif:1357481,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.403225768,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena salicifloris,gbif:1357452,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.237488833,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena saxonica,gbif:1357416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.63,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena saxonica,gbif:1357416,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena saxonica,gbif:1357416,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena saxonica Stoeckhert, 1935",gbif:1357416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.36,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena schencki,gbif:1357402,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.4,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena schencki,gbif:1357402,body size,thorax length,NA,mean thorax length,NA,species,12,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena scotica,gbif:6096950,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,12.5,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena scotica,gbif:6096950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,17,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena scotica,gbif:6096950,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,17,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena scotica (Perkins 1916),gbif:6096950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.9,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena scotica Perkins 1916,gbif:6096950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.9,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena scotica Perkins 1916,gbif:6096950,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.95,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena semilaevis,gbif:1357074,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,18,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena semilaevis,gbif:1357074,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,18,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena semipunctata,gbif:1357307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.95,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena similis,gbif:1358254,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.34,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena simontornyella,gbif:1358222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.36,mean,mm,80,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena simontornyella NOSKIEWICZ 1940,gbif:1358222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.28,mean,mm,8,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Andrena simontornyella NOSKIEWICZ 1940,gbif:1358222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.28,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Andrena simontornyella NOSKIEWICZ 1940,gbif:1358222,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.35,mean,mm,8,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena simontornyella Noskiewicz, 1939",gbif:1358222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Andrena simplex,gbif:1357232,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,2,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Andrena sp,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.82,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,NA,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena sp.,gbif:1345710,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.68,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena sp.,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.840909022,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Andrena sp. 1,gbif:1345710,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,9,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena sp. 1,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena sp1,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.061224463,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena sp2,gbif:1345710,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Andrena sp2,gbif:1345710,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena specularia,gbif:1357094,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.741935456,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena spp.,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.032467456,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena strohmella,gbif:8221007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.58,mean,mm,16,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena strohmella,gbif:8221007,body size,thorax length,NA,mean thorax length,NA,species,6.2,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena strohmella Illiger, 1806",gbif:1357634,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.6,mean,mm,11,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena suavis,gbif:1356974,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.51,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena subaustralis,gbif:1356946,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.16,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena subchalybea,gbif:1345710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.56,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena subopaca,gbif:1357479,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.22,mean,mm,NA,0.08,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena subopaca,gbif:1357479,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.49,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Andrena subopaca,gbif:1357479,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,NA,0.09,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena subopaca,gbif:1357479,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,19,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena subopaca,gbif:1357479,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena subopaca,gbif:1357479,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.06,mean,mm,NA,NA,NA,19,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena subopaca (Nylander 1848),gbif:1357479,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena subopaca Nylander 1848,gbif:1357479,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Andrena subopaca Nylander 1848,gbif:1357479,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.5,mean,mm,46,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena subopaca Nylander, 1848",gbif:1357479,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.39,mean,mm,52,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena subopaca Nylander, 1848",gbif:1357479,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena subtilis,gbif:1358350,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Andrena taraxaci,gbif:1357050,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.68,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena taraxaci,gbif:1357050,body size,thorax length,NA,mean thorax length,NA,species,11,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena tenuistriata (Perez, 1895)",gbif:1356913,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.29,mean,mm,65,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Andrena thaspii,gbif:1358212,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena thaspii,gbif:1358212,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.943548356,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Andrena thoracica,gbif:1358320,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.91,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena tibialis,gbif:1358210,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.85,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena tibialis,gbif:1358210,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,20,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena tibialis,gbif:1358210,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,20,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena topazana,gbif:1358121,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.946785136,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena transnigra,gbif:1358075,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.629737575,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena trimmerana,gbif:1357930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.25,mean,mm,23,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena vaga,gbif:1357486,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,21,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Andrena vaga,gbif:1357486,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,21,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Andrena varia Perez, 1895",gbif:1357439,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,6,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena varians,gbif:1357397,body size,thorax length,NA,mean thorax length,NA,species,10,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Andrena ventricosa,gbif:1357295,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.63,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena vicina,gbif:1357790,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,12.6,mean,mm,56,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena vicina,gbif:1357790,body size,front wing length,NA,NA,NA,species,9.9,mean,mm,56,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena vicina,gbif:1357790,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,50-75,mean,percentage,56,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena vicina,gbif:1357790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,3,mean,mm,56,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Andrena vicina,gbif:1357790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.48,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Andrena vicina,gbif:1357790,body size,undefined,NA,NA,NA,species,12.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena vicina,gbif:1357790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.612903184,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena violae,gbif:1357693,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.5,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena violae,gbif:1357693,body size,front wing length,NA,NA,NA,species,6.5,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena violae,gbif:1357693,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena violae,gbif:1357693,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.3,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena viridescens,gbif:1357099,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,10,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Andrena viridescens Viereck 1916,gbif:1357099,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,2,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena vulpecula,gbif:1356976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.98,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Andrena w-scripta,gbif:1357501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.74,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Andrena walleyi,gbif:1357594,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.874149598,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena wilkella,gbif:1358128,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.9,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena wilkella,gbif:1358128,body size,front wing length,NA,NA,NA,species,7.6,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena wilkella,gbif:1358128,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,50-75,mean,percentage,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Andrena wilkella,gbif:1358128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.5,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Andrena wilkella,gbif:1358128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,2.35,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,NA,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Andrena wilkella,gbif:1358128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,7,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Andrena wilkella,gbif:1358128,body size,thorax length,NA,mean thorax length,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Andrena wilkella,gbif:1358128,body size,undefined,NA,NA,NA,species,10.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Andrena wilkella (Kirby, 1802)",gbif:1358128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.36,mean,mm,8,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_banksi,gbif:1358225,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_barbara,gbif:1358207,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_carlini,gbif:1357621,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.8315,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_carolina,gbif:1357605,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_commoda,gbif:1357248,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.44,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_cornelli,gbif:1357149,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_crataegi,gbif:1357081,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.11,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_cressonii,gbif:1357020,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.116875,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_cressonii_cressonii,gbif:1357020,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_dunningi,gbif:1358199,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.4375,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_forbesii,gbif:1357888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.12,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_hilaris,gbif:1357415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_hippotes,gbif:1357400,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_illini,gbif:1357284,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_imitatrix,gbif:1357223,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.764,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_imitatrix_morrisonella,gbif:1357223,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_macra,gbif:1358081,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_mandibularis,gbif:1358021,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.14,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_milwaukeensis,gbif:1357746,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.28942,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_miserablis,gbif:1357679,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.952,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_miserablis,gbif:1357679,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_nasonii,gbif:1357506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9235,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_nasonii,gbif:1357506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_perplexa,gbif:1358224,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.57922,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_perplexa,gbif:1358224,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_personata,gbif:1358164,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_pruni,gbif:1357915,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.29586,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_regularis,gbif:1357735,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.67,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_rugosa,gbif:1357496,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.775,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_vicina,gbif:1357790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.50038,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_violae,gbif:1357693,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Andrena_w_scripta,gbif:1357501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.89,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Andrena_ziziae,gbif:1357441,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthidiellum ehrhorni,gbif:1338876,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.39,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthidiellum notatum,gbif:1338896,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Anthidiellum strigatum,gbif:1338883,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.44,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Anthidiellum strigatum (Panzer, 1805)",gbif:1338883,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.5,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Anthidiellum strigatum (Panzer, 1805)",gbif:1338883,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.45,mean,mm,17,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Anthidium (Anthidium) rodriguezii,gbif:1334910,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.38,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Anthidium byssinum,gbif:6096975,body size,thorax length,NA,mean thorax length,NA,species,10,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Anthidium clypeodontatum,gbif:1334885,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.74193544,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium collectum,gbif:1334950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.72,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium collectum,gbif:1334950,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.89,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Anthidium florentinum,gbif:1334802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.65,mean,mm,95,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Anthidium florentinum (Fabricius, 1775)",gbif:1334802,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,15.5,mean,mm,4,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium illustre,gbif:1334877,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.53,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium illustre,gbif:1334877,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.27,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium jocosum,gbif:1334916,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium jocosum,gbif:1334916,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.9,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Anthidium lituratum,gbif:6096974,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.67,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthidium maculosum,gbif:1334966,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.489,mean,mm,NA,NA,NA,NA,NA,2003,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthidium maculosum,gbif:1334966,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2009,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Anthidium manicatum,gbif:1334821,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.5,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Anthidium manicatum,gbif:1334821,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.59,mean,mm,34,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Anthidium manicatum,gbif:1334821,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.35,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Anthidium manicatum,gbif:1334821,body size,undefined,NA,NA,NA,species,14,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Anthidium manicatum (Linnaeus 1758),gbif:1334821,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.5,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Anthidium manicatum (Linnaeus, 1758)",gbif:1334821,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,14,mean,mm,4,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Anthidium manicatum (Linnaeus, 1758)",gbif:1334821,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,3.59,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Anthidium manicatum (Linnaeus, 1758)",gbif:1334821,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.19,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthidium mormonum,gbif:1334896,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.29,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium mormonum,gbif:1334896,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.67,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium mormonum,gbif:1334896,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.79,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Anthidium mormonum,gbif:1334896,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.17741932,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Anthidium oblongatum,gbif:1334902,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.5,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Anthidium oblongatum,gbif:1334902,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.67,mean,mm,26,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Anthidium oblongatum,gbif:1334902,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Anthidium oblongatum,gbif:1334902,body size,thorax length,NA,mean thorax length,NA,species,12,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Anthidium oblongatum,gbif:1334902,body size,undefined,NA,NA,NA,species,8.55,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthidium palmarum,gbif:1334865,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.821,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthidium palmarum,gbif:1334865,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.742,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthidium palmarum,gbif:1334865,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.673,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Anthidium punctatum Latreille, 1809",gbif:1334817,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,2.66,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthidium schwarzi,gbif:1334798,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Anthidium septemspinosum,gbif:1334975,body size,thorax length,NA,mean thorax length,NA,species,14,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Anthidium strigatum,gbif:6096973,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.22,mean,mm,NA,0.03,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Anthidium strigatum,gbif:6096973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.24,mean,mm,NA,0.05,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Anthidium strigatum (PANZER 1805),gbif:6096973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.01,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Anthidium strigatum (PANZER 1805),gbif:6096973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.01,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Anthidium strigatum (PANZER 1805),gbif:6096973,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,1.88,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Anthidium tenuiflorae,gbif:1334872,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.370967704,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthidium utahense,gbif:1334955,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.05,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium utahense,gbif:1334955,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthidium utahense,gbif:1334955,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.2,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Anthophora (Paramegilla) Friese,gbif:4669412,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.32,single observation,mm,NA,NA,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,savannah
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Anthophora aestivalis,gbif:1344360,body size,thorax length,NA,mean thorax length,NA,species,15,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Anthophora aestivalis,gbif:1344360,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Anthophora aestivalis,gbif:1344360,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.6,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.29,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.15,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.9,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.94,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.2,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.26,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.24,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.1,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.06,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.39,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.47,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.4,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.26,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.36,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.06,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.05,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.04,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.06,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.36,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.05,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.25,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.05,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.5,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.1,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.29,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.99,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.34,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.16,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.1,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.15,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.13,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.09,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.28,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.32,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.57,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.13,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.12,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.12,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.26,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.28,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.14,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.11,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.32,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.9,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.29,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.93,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.02,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.14,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.04,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.31,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.1,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.96,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.26,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.1,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.78,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.09,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.04,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.97,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.03,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.2,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.32,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.24,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.16,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.29,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.32,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.25,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.51,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.31,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.28,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.38,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.08,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.27,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.94,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.48,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.13,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.09,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.95,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.33,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.13,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.28,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.27,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.27,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.34,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.08,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.28,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.89,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.25,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.27,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.06,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.35,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.24,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.24,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.16,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.1,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.26,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.15,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.99,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.02,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.46,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.26,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.36,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.14,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.08,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.13,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.15,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.86,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.08,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.84,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.99,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.25,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.15,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.34,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.36,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.03,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.38,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.91,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.23,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.1,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.44,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.13,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.1,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.02,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.2,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.61,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.32,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.99,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.34,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.25,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.95,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.07,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.3,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.92,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.23,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.37,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.26,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.99,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.35,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.15,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.21,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.33,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.33,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.23,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.29,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.06,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.33,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.49,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.33,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.4,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.62,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.3,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.01,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.3,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.29,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.01,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.23,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.84,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.17,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.97,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.07,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.83,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.93,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.06,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.19,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.02,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora affabilis,gbif:5040208,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.3,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Anthophora bimaculata,gbif:1344282,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.64,mean,mm,20,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthophora californica,gbif:5040129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.58,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora californica,gbif:5040129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora californica,gbif:5040129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.21,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora californica,gbif:5040129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.3,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora californica,gbif:5040129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora californica,gbif:5040129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora centriformis,gbif:5040473,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.228,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Anthophora crinipes Smith, 1854",gbif:1344449,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.72,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthophora curta,gbif:10591917,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.68,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthophora curta,gbif:10591917,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.64,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthophora curta,gbif:10591917,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.4,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Anthophora diversipes FRIESE 1922,gbif:5040366,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.52,mean,mm,6,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Anthophora diversipes FRIESE 1922,gbif:5040366,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.15,mean,mm,6,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthophora edwardsii,gbif:5040408,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.08,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Anthophora furcata,gbif:1344341,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.3,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Anthophora furcata,gbif:1344341,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.15,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Anthophora furcata,gbif:1344341,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,22,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Anthophora furcata,gbif:1344341,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,22,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Anthophora furcata (Panzer 1798),gbif:1344341,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.4,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.45,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.4,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.4,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.31,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.51,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.42,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.45,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.24,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.21,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.31,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.35,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.35,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.51,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.23,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.42,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.21,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.33,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.34,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.47,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.34,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.49,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.49,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.55,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.45,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.55,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.36,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.45,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.53,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.33,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.23,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.26,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.36,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.42,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.55,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.65,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.53,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora lesquerellae,gbif:5040292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.31,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.83,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.7,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.66,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.28,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.61,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.49,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.78,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.65,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.59,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.73,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.74,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.69,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.66,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.56,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.67,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.87,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.52,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.46,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.53,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.46,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.23,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.36,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.81,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.89,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.69,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.53,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.73,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.43,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.47,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.67,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.72,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.56,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.69,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.52,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.28,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.46,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.36,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.6,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.51,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.68,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.72,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.51,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.98,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.5,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.53,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.6,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.66,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.35,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.72,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.56,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.56,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.88,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.61,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.42,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.69,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.66,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.5,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.65,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.74,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.35,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.62,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.62,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.77,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.64,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.45,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.36,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.76,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.63,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.66,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.77,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.89,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.54,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.55,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.51,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.4,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.67,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.75,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.5,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.54,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.61,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.64,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.47,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.59,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.56,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.52,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.88,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.61,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.76,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.55,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.7,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.56,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.69,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.67,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.62,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.53,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.99,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.39,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.49,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.5,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.69,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.79,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.79,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.83,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.81,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.65,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.34,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.33,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.67,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.67,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.96,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.56,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.65,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.28,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.47,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.65,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.67,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.61,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.58,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.66,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.46,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.63,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.76,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.73,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.51,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.71,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.69,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora montana,gbif:5040262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.77,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora n_sp,gbif:1337506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.28,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora n_sp,gbif:1337506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.152,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora n_sp,gbif:1337506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.14,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora neglecta,gbif:5040248,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.842,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthophora pacifica,gbif:5040222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.24,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora phenax,gbif:5040183,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.875,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Anthophora plumipes,gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,4.3,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Anthophora plumipes,gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.33,mean,mm,282,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Anthophora plumipes,gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.31,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Anthophora plumipes,gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.78,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Anthophora plumipes,gbif:1344087,body size,thorax length,NA,mean thorax length,NA,species,16,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Anthophora plumipes (Pallas 1772),gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.7,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Anthophora plumipes (PALLAS 1772),gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.76,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Anthophora plumipes (PALLAS 1772),gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.76,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Anthophora plumipes (PALLAS 1772),gbif:1344087,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.61,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Anthophora plumipes (Pallas, 1772)",gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,4.01,mean,mm,6,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Anthophora plumipes (Pallas, 1772)",gbif:1344087,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.74,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.59,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.34,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.34,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.16,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.14,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.33,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.27,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.32,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora porterae,gbif:5040156,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.22,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Anthophora sp,gbif:1337506,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,19.71,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Anthophora terminalis,gbif:5040457,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,3.12,mean,mm,13,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Anthophora terminalis,gbif:5040457,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,2.55,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Anthophora terminalis,gbif:5040457,body size,undefined,NA,NA,NA,species,11.75,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Anthophora terminalis,gbif:5040457,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.243589726,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.98,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.44,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.23,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.3,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthophora urbana,gbif:5040435,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.97,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Anthophora urbana,gbif:5040435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.346153828,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Anthophora ursina,gbif:5040427,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.567307673,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Anthophora wartmanni FRIESE 1905,gbif:5040453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.74,mean,mm,16,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Anthophora wartmanni FRIESE 1905,gbif:5040453,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.58,mean,mm,16,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Anthophora_abrupta,gbif:5040217,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343182,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343183,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343184,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343185,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343187,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343188,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343189,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343190,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343191,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343192,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343193,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343194,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343195,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343196,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343197,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343199,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343200,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343201,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343202,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343203,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula compactula,gbif:1343204,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula completa,gbif:1343170,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.34,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthophorula nitens,gbif:1343188,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.69,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthophorula nitens,gbif:1343188,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.53,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Anthophorula pygmaea,gbif:1343172,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.36,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthophorula torticornis,gbif:1343158,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Anthophorula torticornis,gbif:1343158,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.36,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Anthrenoides sp. 1,gbif:1355597,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.7,single observation,mm,NA,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Antophora sp. 1,gbif:1337506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.25,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Aparatrigona impunctata,gbif:9637957,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,58,NA,NA,NA,6,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Aparatrigona impunctata (Ducke, 1916)",gbif:9637957,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean ,mm,5,NA,NA,NA,sp01,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Apis cerana,gbif:1341979,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,B02,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Apis cerana,gbif:1341979,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.62,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Apis cerana,gbif:1341979,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.43,mean,mm,NA,NA,NA,B02,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Apis dorsata,gbif:1341978,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,19.43,mean,mm,NA,0.1,std error,7,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Apis dorsata,gbif:1341978,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,9.82,mean,mm,NA,0.08,std error,7,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Apis dorsata,gbif:1341978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.94,mean,mm,NA,NA,NA,B03,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Apis dorsata,gbif:1341978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,3.28,mean,mm,NA,0.05,std error,7,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Apis dorsata,gbif:1341978,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,9.18,mean,mm,NA,0.2,std error,7,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Apis dorsata,gbif:1341978,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6,mean,mm,NA,NA,NA,B03,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Apis dorsata,gbif:1341978,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,7.65,mean,mm,NA,0.15,std error,7,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Apis Linnaeus,gbif:1334757,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.27,mean,mm,7,0.007,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Apis mellifera,gbif:1341976,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11.8,mean,mm,37,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Apis mellifera,gbif:1341976,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,12.4,mean,mm,5,0.3,std error,NA,NA,April and June over three field seasons (2014–2016),NA,NA,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Apis mellifera,gbif:1341976,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,16.43,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Apis mellifera,gbif:1341976,body size,front wing length,NA,NA,NA,species,9.1,mean,mm,37,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Apis mellifera,gbif:1341976,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,50-75,mean,percentage,37,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Apis mellifera,gbif:1341976,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,65%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,NA,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,3.3,mean,mm,37,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,3.03,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,NA,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.911,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.385,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.828,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.787,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.882,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.006,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.651,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.486,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.827,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.929,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.938,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.789,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.791,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.037,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.961,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.968,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.839,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.117,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Apis mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.78,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Apis mellifera,gbif:1341976,body size,thorax length,NA,mean thorax length,NA,species,11,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Apis mellifera,gbif:1341976,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,4.8,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Apis mellifera,gbif:1341976,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.5,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Apis mellifera,gbif:1341976,body size,undefined,NA,NA,NA,species,13.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Apis mellifera L.,gbif:1341976,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,14.23,mean,mm,10,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Apis mellifera LINNAEUS 1759,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.68,mean,mm,1390,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Apis mellifera LINNAEUS 1759,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.68,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Apis mellifera LINNAEUS 1759,gbif:1341976,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.51,mean,mm,1390,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Apis mellifera Linnaeus, 1758",gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.07,mean,mm,769,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Apis mellifera Linnaeus, 1758",gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.266,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",NA,NA,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Apis mellifera Linnaeus, 1758",gbif:1341976,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,4.672,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",NA,NA,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Apis_mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.056486667,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Apis_mellifera,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,APIS.MELLIFERA,gbif:1341976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2065,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Ariphanarthra palpalis Moure, 1951  ",gbif:1352764,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.87,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Ariphanarthra palpalis Moure, 1951  ",gbif:1352764,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.148,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ashmeadiella aridula,gbif:1337434,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.25,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella bucconis,gbif:1337478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.78,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella bucconis,gbif:1337478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.81,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella bucconis,gbif:1337478,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.25,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella cactorum,gbif:1337459,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella cactorum,gbif:1337459,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Ashmeadiella cactorum,gbif:1337459,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.50649345,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella californica,gbif:1337450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella californica,gbif:1337450,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.84,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Ashmeadiella californica,gbif:1337450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.556276998,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella cubiceps,gbif:1337453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.59,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella cubiceps,gbif:1337453,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.92,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella difugita,gbif:1337435,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.331,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella foveata,gbif:1337479,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.75,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella foveata,gbif:1337479,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.2,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella gillettei,gbif:1337460,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.183,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.51,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.39,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.34,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.28,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.39,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.36,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.37,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.34,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.41,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.29,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.37,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.31,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.24,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.29,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.26,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.31,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.22,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.37,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.37,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.35,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.33,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.36,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.33,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.36,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.39,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.33,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.33,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.41,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.41,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella meliloti,gbif:1337424,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.77,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Ashmeadiella meliloti,gbif:1337424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.337662288,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella occipitalis,gbif:1337428,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.14,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella opuntiae,gbif:1337480,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella opuntiae,gbif:1337480,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Ashmeadiella pronitens,gbif:1337461,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.623376563,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella rubrella,gbif:1337432,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.449,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella rubrella,gbif:1337432,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.427,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella rufitarsis,gbif:1337465,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella rufitarsis,gbif:1337465,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.54,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella salviae,gbif:1337455,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.49,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella salviae,gbif:1337455,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.74,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella titusi,gbif:1337449,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ashmeadiella titusi,gbif:1337449,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.69,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ashmeadiella vandykiella,gbif:1337471,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.483,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Atoposmia aff_daleae,gbif:1334690,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.629,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Atoposmia copelandica,gbif:1334708,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.72,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Atoposmia copelandica,gbif:1334708,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Augochlora amphitrite (Shrottky),gbif:1352769,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.6,mean,mm,9,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora cephalica (Moure, 1941)",gbif:1352803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.286,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora cephalica (Moure, 1941)",gbif:1352803,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.357,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora cydippe (Schrottky, 1910)  ",gbif:1352835,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.243,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora cydippe (Schrottky, 1910)  ",gbif:1352835,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.7,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora foxiana Cockerell, 1900  ",gbif:1352771,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.396,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora foxiana Cockerell, 1900  ",gbif:1352771,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.993,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora morrae Strand, 1910  ",gbif:1352786,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.176,NA,mm,3,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora morrae Strand, 1910  ",gbif:1352786,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.761,NA,mm,3,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Augochlora neivai,gbif:1352866,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,7,NA,NA,NA,8,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Augochlora phoemonoe (Schrottky),gbif:1352865,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7.7,single observation,mm,NA,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochlora pura,gbif:1352791,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.2,mean,mm,9,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochlora pura,gbif:1352791,body size,front wing length,NA,NA,NA,species,5.7,mean,mm,9,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochlora pura,gbif:1352791,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,9,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochlora pura,gbif:1352791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.6,mean,mm,9,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Augochlora pura,gbif:1352791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.74,mean,mm,2,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Augochlora pura,gbif:1352791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Augochlora pura,gbif:1352791,body size,undefined,NA,NA,NA,species,8,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Augochlora sp. 1,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.81,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Augochlora sp. 2,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.39,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.01   ,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.564,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.01   ,gbif:1352768,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.134,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.02   ,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.07,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.02   ,gbif:1352768,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.641,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.03   ,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.376,NA,mm,3,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.03   ,gbif:1352768,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.28,NA,mm,3,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.04   ,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,1.05,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.04   ,gbif:1352768,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,1.446,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.05   ,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,1.09,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.05   ,gbif:1352768,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,3.33,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.06   ,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,1.05,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.06   ,gbif:1352768,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,3.01,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.07   ,gbif:1352768,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,1.49,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochlora sp.07   ,gbif:1352768,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,2.023,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora thusnelda (Schrottky, 1909)",gbif:1352815,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.186,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlora thusnelda (Schrottky, 1909)",gbif:1352815,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.37,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Augochlora_pura,gbif:1352791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9295,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Augochlora_pura,gbif:1352791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.6,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochlorella aurata,gbif:1352579,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7.5,mean,mm,30,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochlorella aurata,gbif:1352579,body size,front wing length,NA,NA,NA,species,4.7,mean,mm,30,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochlorella aurata,gbif:1352579,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,30,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochlorella aurata,gbif:1352579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.7,mean,mm,30,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Augochlorella aurata,gbif:1352579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.45,mean,mm,20,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Augochlorella aurata,gbif:1352579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.26,mean,mm,3,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Augochlorella aurata,gbif:1352579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.53,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Augochlorella aurata,gbif:1352579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.405,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Augochlorella aurata,gbif:1352579,body size,undefined,NA,NA,NA,species,5.25,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlorella ephyra (Schrottky, 1910)  ",gbif:1352580,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.073,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlorella ephyra (Schrottky, 1910)  ",gbif:1352580,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.971,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Augochlorella pomoniella,gbif:1352577,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Augochlorella pomoniella,gbif:1352577,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Augochlorella sp. 1,gbif:1352571,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.23,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Augochlorella sp. 2,gbif:1352571,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.69,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Augochlorella sp. 3,gbif:1352571,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.75,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlorella urania (Smith, 1853)  ",gbif:1352589,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.013,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochlorella urania (Smith, 1853)  ",gbif:1352589,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.78,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Augochlorella_aurata,gbif:1352579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Augochlorella_gratiosa,gbif:1352574,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Augochloropsis acis (Smith),gbif:1353064,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7.2,mean,mm,3,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochloropsis brachycephala Moure, 1943   ",gbif:1352999,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.443,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochloropsis brachycephala Moure, 1943   ",gbif:1352999,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.27,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Augochloropsis callichroa,gbif:1353090,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.92,mean,mm,40,NA,NA,NA,9,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis cfr. cockerelli  ,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis cfr. cockerelli  ,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.084,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis cfr. patens  ,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.463,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis cfr. patens  ,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.523,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochloropsis cleopatra (Schrottky, 1902)   ",gbif:1352973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.803,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochloropsis cleopatra (Schrottky, 1902)   ",gbif:1352973,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.834,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Augochloropsis hebescens,gbif:1353051,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.86,mean,mm,19,NA,NA,NA,10,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochloropsis metallica,gbif:1353091,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.8,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochloropsis metallica,gbif:1353091,body size,front wing length,NA,NA,NA,species,6.5,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochloropsis metallica,gbif:1353091,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Augochloropsis metallica,gbif:1353091,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Augochloropsis metallica,gbif:1353091,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.08,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochloropsis rotalis (Vachal, 1903)  ",gbif:1353031,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.443,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochloropsis rotalis (Vachal, 1903)  ",gbif:1353031,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.171,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Augochloropsis smithiana,gbif:1353075,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,18,NA,NA,NA,11,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Augochloropsis sp. 2,gbif:1352945,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.6,mean,mm,4,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.01,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.716,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.01,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.688,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.02,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.226,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.02,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.905,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.03,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.563,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.03,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.608,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.04,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.34,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.04,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.938,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.05,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.446,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.05,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.332,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.06,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,1.8,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.06,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,2.426,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.07,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,1.06,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.07,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,1.459,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.08,gbif:1352945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,1.285,NA,mm,2,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Augochloropsis sp.08,gbif:1352945,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,3.485,NA,mm,2,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochloropsis sparsilis (Vachal, 1903)  ",gbif:1353063,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,1.673,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Augochloropsis sparsilis (Vachal, 1903)  ",gbif:1353063,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,3.53,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Augochloropsis wallacei,gbif:1352977,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.95,mean,mm,6,NA,NA,NA,12,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,B.BIMACULATUS,gbif:1340382,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.93,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2072,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,B.CITRINUS,gbif:1340312,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2074,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,B.FERVIDUS,gbif:1340478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2073,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,B.GRISEOCOLLIS,gbif:1340409,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.4,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2068,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,B.IMPATIENS,gbif:1340350,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2066,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,B.RUFOCINCTUS,gbif:1340347,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.37,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2070,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,B.TERRICOLA,gbif:1340493,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2067,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,B.VAGANS,gbif:1340472,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.34,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2069,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus appositus,gbif:1340470,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.510204036,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus barbutellus,gbif:1340434,body size,thorax length,NA,mean thorax length,NA,species,17,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus barbutellus,gbif:1340434,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,9.9,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus barbutellus,gbif:1340434,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.4,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus bifarius,gbif:1340393,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.242825256,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus bimaculatus,gbif:1340382,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,14.1,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus bimaculatus,gbif:1340382,body size,front wing length,NA,NA,NA,species,11.8,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus bimaculatus,gbif:1340382,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus bimaculatus,gbif:1340382,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,4.6,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus bimaculatus,gbif:1340382,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,3.83,mean,mm,18,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus bimaculatus,gbif:1340382,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,3.78,mean,mm,2,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Bombus bimaculatus,gbif:1340382,body size,undefined,NA,NA,NA,species,19.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus bohemicus,gbif:1340362,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,individual,19.57,single observation,mm,1,NA,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus bohemicus,gbif:1340362,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,individual,80%,single observation,NA,1,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus bohemicus,gbif:1340362,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.33,mean,mm,NA,0.37,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus bohemicus,gbif:1340362,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4,mean,mm,NA,0.33,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus bohemicus Seidl, 1837",gbif:1340362,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,4.23,mean,mm,13,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus borealis,gbif:1340373,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,13,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Bombus brasiliensis Lepeletier, 1836",gbif:1340310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.486,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Bombus brasiliensis Lepeletier, 1836",gbif:1340310,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,9.879,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Bombus brevivillus,gbif:1340548,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.8,mean,mm,63,NA,NA,NA,13,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Bombus californicus,gbif:1340343,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.61,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Bombus californicus,gbif:1340343,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.66,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Bombus californicus,gbif:1340343,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.39,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus californicus,gbif:1340343,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.387755058,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus campestris,gbif:1340527,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.65,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus campestris,gbif:1340527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus campestris,gbif:1340527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.05,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus campestris (Panzer, 1801)",gbif:1340527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,3.72,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus centralis,gbif:1340324,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.151800546,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Bombus crotchii,gbif:1340280,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.35,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Bombus crotchii,gbif:1340280,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.27,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Bombus crotchii,gbif:1340280,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,8.59,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus fervidus,gbif:1340478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,3.58,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus fervidus,gbif:1340478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,3.98,mean,mm,2,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Bombus fervidus,gbif:1340478,body size,undefined,NA,NA,NA,species,10.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus fervidus,gbif:1340478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.596729421,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus flavifrons,gbif:1340467,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11.5,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus flavifrons,gbif:1340467,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.150566861,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus frigidus,gbif:1340421,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus frigidus,gbif:1340421,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.139004741,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus gerstaeckeri,gbif:1340384,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.83,mean,mm,NA,0.21,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus gerstaeckeri,gbif:1340384,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.45,mean,mm,NA,0.92,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus griseocolis,gbif:1340409,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,15.5,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus griseocolis,gbif:1340409,body size,front wing length,NA,NA,NA,species,14.8,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus griseocolis,gbif:1340409,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus griseocolis,gbif:1340409,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,5.4,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Bombus griseocolis,gbif:1340409,body size,undefined,NA,NA,NA,species,13.75,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus griseocollis,gbif:1340409,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,4.22,mean,mm,4,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus griseocollis,gbif:1340409,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,5,mean,mm,3,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus griseocollis,gbif:1340409,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.530612199,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus haematurus KRIECHBAUMER 1870,gbif:1340365,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,3.65,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Bombus haematurus KRIECHBAUMER 1870,,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.65,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus haematurus KRIECHBAUMER 1870,gbif:1340365,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,7.4,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus haematurus Kriechbaumer, 1870",gbif:1340365,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.65,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus hortorum,gbif:1340542,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,19.25,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus hortorum,gbif:1340542,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.99,mean,mm,NA,0.31,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Bombus hortorum,gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,5.7,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus hortorum,gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.77,mean,mm,41,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus hortorum,gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.82,mean,mm,NA,0.59,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus hortorum,gbif:1340542,body size,thorax length,NA,mean thorax length,NA,species,14,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus hortorum,gbif:1340542,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,15.3,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus hortorum,gbif:1340542,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.2,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus hortorum (Linnaeus 1761),gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.2,mean,mm,46,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus hortorum (Linnaeus 1761),gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.2,mean,mm,46,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus hortorum (Linnaeus 1761),gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.2,mean,mm,29,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Bombus hortorum (LINNAEUS 1761),gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.41,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus hortorum (Linnaeus 1761),gbif:1340542,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,8.45,mean,mm,423,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus hortorum (LINNAEUS 1762,gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.41,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus hortorum (LINNAEUS 1762,gbif:1340542,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.94,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus hortorum (Linnaeus, 1761)",gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.86,mean,mm,4,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus hortorum (Linnaeus, 1761)",gbif:1340542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.35,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus humilis,gbif:1340523,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.95,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Bombus humilis,gbif:1340523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,4.77,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus humilis,gbif:1340523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.77,mean,mm,22,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus humilis,gbif:1340523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus humilis,gbif:1340523,body size,thorax length,NA,mean thorax length,NA,species,11,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult,the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Bombus humilis Illiger, 1806",gbif:1340523,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,14.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus humilis Illiger, 1806",gbif:1340523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.51,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus hypnorum,gbif:1340513,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,20.85,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus hypnorum,gbif:1340513,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.28,mean,mm,NA,0.26,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus hypnorum,gbif:1340513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.71,mean,mm,18,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus hypnorum,gbif:1340513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.62,mean,mm,NA,0.14,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus hypnorum (Linnaeus 1758),gbif:1340513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.64,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus hypnorum (Linnaeus 1758),gbif:1340513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.64,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus hypnorum (Linnaeus 1758),gbif:1340513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.64,mean,mm,10,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus hypnorum (Linnaeus 1758),gbif:1340513,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,7.36,mean,mm,21,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus hypnorum (Linnaeus, 1758)",gbif:1340513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.67,mean,mm,4,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus impatiens,gbif:1340350,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,17,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus impatiens,gbif:1340350,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,14.2,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus impatiens,gbif:1340350,body size,front wing length,NA,NA,NA,species,13.5,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus impatiens,gbif:1340350,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus impatiens,gbif:1340350,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,5.1,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus impatiens,gbif:1340350,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,3.65,mean,mm,107,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Bombus impatiens,gbif:1340350,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.51,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Bombus impatiens,gbif:1340350,body size,undefined,NA,NA,NA,species,12.25,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus jonellus,gbif:1340308,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,20.51,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus jonellus,gbif:1340308,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.05,mean,mm,NA,0.25,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus jonellus,gbif:1340308,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.99,mean,mm,NA,0.71,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus lapidarius,gbif:1340301,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,individual,18.86,single observation,mm,1,NA,std error,NA,NA,April and June over three field seasons (2014–2016),NA,queen,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus lapidarius,gbif:1340301,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,13.82,mean,mm,5,0.83,std error,NA,NA,April and June over three field seasons (2014–2016),NA,worker,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus lapidarius,gbif:1340301,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,21.68,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13087",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,1,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13088",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,2,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13089",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.62,NA,mm,NA,NA,NA,3,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13090",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.5,NA,mm,NA,NA,NA,4,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13091",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.92,NA,mm,NA,NA,NA,5,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13092",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.73,NA,mm,NA,NA,NA,6,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13093",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.84,NA,mm,NA,NA,NA,7,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13094",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.26,NA,mm,NA,NA,NA,8,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13095",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.61,NA,mm,NA,NA,NA,9,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13096",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.5,NA,mm,NA,NA,NA,10,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13097",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.88,NA,mm,NA,NA,NA,11,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13098",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.38,NA,mm,NA,NA,NA,12,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13099",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.72,NA,mm,NA,NA,NA,13,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13100",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,14,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13101",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,15,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13102",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.8,NA,mm,NA,NA,NA,16,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13103",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.02,NA,mm,NA,NA,NA,17,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13104",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.9,NA,mm,NA,NA,NA,18,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13105",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.51,NA,mm,NA,NA,NA,19,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13106",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,20,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13107",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.5,NA,mm,NA,NA,NA,21,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13108",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.08,NA,mm,NA,NA,NA,22,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13109",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.42,NA,mm,NA,NA,NA,23,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13110",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.34,NA,mm,NA,NA,NA,24,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13111",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.58,NA,mm,NA,NA,NA,25,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13112",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,26,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13113",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.66,NA,mm,NA,NA,NA,27,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13114",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.36,NA,mm,NA,NA,NA,28,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13115",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.52,NA,mm,NA,NA,NA,29,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13116",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.97,NA,mm,NA,NA,NA,30,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13117",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.15,NA,mm,NA,NA,NA,31,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13118",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.79,NA,mm,NA,NA,NA,32,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13119",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.29,NA,mm,NA,NA,NA,33,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13120",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.06,NA,mm,NA,NA,NA,34,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13121",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.12,NA,mm,NA,NA,NA,35,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13122",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.54,NA,mm,NA,NA,NA,36,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13123",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.35,NA,mm,NA,NA,NA,37,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13124",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.73,NA,mm,NA,NA,NA,38,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13160",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,13,NA,mm,NA,NA,NA,1,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13161",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.32,NA,mm,NA,NA,NA,2,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13162",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.24,NA,mm,NA,NA,NA,3,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13163",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.02,NA,mm,NA,NA,NA,4,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13164",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.46,NA,mm,NA,NA,NA,5,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13165",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.72,NA,mm,NA,NA,NA,6,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13166",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.13,NA,mm,NA,NA,NA,7,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13167",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.62,NA,mm,NA,NA,NA,8,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13168",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.79,NA,mm,NA,NA,NA,9,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13169",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.35,NA,mm,NA,NA,NA,10,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13170",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.56,NA,mm,NA,NA,NA,11,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13171",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.65,NA,mm,NA,NA,NA,12,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13172",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.26,NA,mm,NA,NA,NA,13,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13173",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.45,NA,mm,NA,NA,NA,14,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13174",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.5,NA,mm,NA,NA,NA,15,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13175",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.67,NA,mm,NA,NA,NA,16,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13176",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.37,NA,mm,NA,NA,NA,17,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13177",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.03,NA,mm,NA,NA,NA,18,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13178",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.91,NA,mm,NA,NA,NA,19,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13179",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.02,NA,mm,NA,NA,NA,20,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13180",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.89,NA,mm,NA,NA,NA,21,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13181",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.36,NA,mm,NA,NA,NA,22,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13182",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.9,NA,mm,NA,NA,NA,23,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13183",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.77,NA,mm,NA,NA,NA,24,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13184",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.71,NA,mm,NA,NA,NA,25,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13185",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.79,NA,mm,NA,NA,NA,26,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13186",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.54,NA,mm,NA,NA,NA,27,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13187",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.12,NA,mm,NA,NA,NA,28,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13188",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.14,NA,mm,NA,NA,NA,29,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13189",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.89,NA,mm,NA,NA,NA,30,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13190",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.91,NA,mm,NA,NA,NA,31,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13191",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.47,NA,mm,NA,NA,NA,32,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13192",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.14,NA,mm,NA,NA,NA,33,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13193",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.21,NA,mm,NA,NA,NA,34,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13194",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.04,NA,mm,NA,NA,NA,35,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13195",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.32,NA,mm,NA,NA,NA,36,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13196",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.15,NA,mm,NA,NA,NA,37,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13235",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.91,NA,mm,NA,NA,NA,1,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13236",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.54,NA,mm,NA,NA,NA,2,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13237",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.76,NA,mm,NA,NA,NA,3,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13238",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.05,NA,mm,NA,NA,NA,4,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13239",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.5,NA,mm,NA,NA,NA,5,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13240",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.6,NA,mm,NA,NA,NA,6,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13241",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.68,NA,mm,NA,NA,NA,7,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13242",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.3,NA,mm,NA,NA,NA,8,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13243",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.43,NA,mm,NA,NA,NA,9,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13244",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.6,NA,mm,NA,NA,NA,10,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13245",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.34,NA,mm,NA,NA,NA,11,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13246",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.74,NA,mm,NA,NA,NA,12,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13247",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.91,NA,mm,NA,NA,NA,13,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13248",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.41,NA,mm,NA,NA,NA,14,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13249",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.56,NA,mm,NA,NA,NA,15,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13250",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.34,NA,mm,NA,NA,NA,16,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13251",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.05,NA,mm,NA,NA,NA,17,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13252",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.6,NA,mm,NA,NA,NA,18,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13253",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.1,NA,mm,NA,NA,NA,19,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13254",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.46,NA,mm,NA,NA,NA,20,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13255",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.31,NA,mm,NA,NA,NA,21,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13256",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.21,NA,mm,NA,NA,NA,22,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13257",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.21,NA,mm,NA,NA,NA,23,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13258",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.54,NA,mm,NA,NA,NA,24,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13259",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.79,NA,mm,NA,NA,NA,25,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13260",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.09,NA,mm,NA,NA,NA,26,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13261",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.47,NA,mm,NA,NA,NA,27,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13262",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.82,NA,mm,NA,NA,NA,28,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13263",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.2,NA,mm,NA,NA,NA,29,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13264",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.46,NA,mm,NA,NA,NA,30,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13265",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.89,NA,mm,NA,NA,NA,31,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13266",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.08,NA,mm,NA,NA,NA,32,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13301",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.21,NA,mm,NA,NA,NA,1,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13302",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.82,NA,mm,NA,NA,NA,2,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13303",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.62,NA,mm,NA,NA,NA,3,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13304",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.4,NA,mm,NA,NA,NA,4,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13305",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.18,NA,mm,NA,NA,NA,5,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13306",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.6,NA,mm,NA,NA,NA,6,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13307",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.15,NA,mm,NA,NA,NA,7,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13308",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,8,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13309",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.59,NA,mm,NA,NA,NA,9,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13310",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.85,NA,mm,NA,NA,NA,10,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13311",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.05,NA,mm,NA,NA,NA,11,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13312",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.66,NA,mm,NA,NA,NA,12,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13313",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.7,NA,mm,NA,NA,NA,13,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13314",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.66,NA,mm,NA,NA,NA,14,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13315",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.5,NA,mm,NA,NA,NA,15,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13316",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.4,NA,mm,NA,NA,NA,16,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13317",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.19,NA,mm,NA,NA,NA,17,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13318",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.46,NA,mm,NA,NA,NA,18,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13319",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.41,NA,mm,NA,NA,NA,19,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13320",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.65,NA,mm,NA,NA,NA,20,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13321",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.46,NA,mm,NA,NA,NA,21,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13322",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.28,NA,mm,NA,NA,NA,22,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13323",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.78,NA,mm,NA,NA,NA,23,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13324",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.96,NA,mm,NA,NA,NA,24,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13325",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.74,NA,mm,NA,NA,NA,25,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13326",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.43,NA,mm,NA,NA,NA,26,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13327",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.37,NA,mm,NA,NA,NA,27,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13328",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.4,NA,mm,NA,NA,NA,28,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13329",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.96,NA,mm,NA,NA,NA,29,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13330",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,30,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13331",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.33,NA,mm,NA,NA,NA,31,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13332",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.59,NA,mm,NA,NA,NA,32,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13368",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.52,NA,mm,NA,NA,NA,1,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13369",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.35,NA,mm,NA,NA,NA,2,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13370",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.29,NA,mm,NA,NA,NA,3,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13371",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.26,NA,mm,NA,NA,NA,4,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13372",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.33,NA,mm,NA,NA,NA,5,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13373",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.94,NA,mm,NA,NA,NA,6,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13374",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.77,NA,mm,NA,NA,NA,7,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13375",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.88,NA,mm,NA,NA,NA,8,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13376",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.04,NA,mm,NA,NA,NA,9,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13377",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.03,NA,mm,NA,NA,NA,10,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13378",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.52,NA,mm,NA,NA,NA,11,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13379",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.43,NA,mm,NA,NA,NA,12,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13380",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.41,NA,mm,NA,NA,NA,13,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13381",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.41,NA,mm,NA,NA,NA,14,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13382",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.02,NA,mm,NA,NA,NA,15,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13383",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.26,NA,mm,NA,NA,NA,16,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13384",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.13,NA,mm,NA,NA,NA,17,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13385",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.55,NA,mm,NA,NA,NA,18,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13386",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.92,NA,mm,NA,NA,NA,19,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13387",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.43,NA,mm,NA,NA,NA,20,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13388",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.07,NA,mm,NA,NA,NA,21,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13389",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.07,NA,mm,NA,NA,NA,22,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13390",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.64,NA,mm,NA,NA,NA,23,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13391",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.85,NA,mm,NA,NA,NA,24,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13392",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.75,NA,mm,NA,NA,NA,25,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13393",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.26,NA,mm,NA,NA,NA,26,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13394",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.95,NA,mm,NA,NA,NA,27,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13395",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.43,NA,mm,NA,NA,NA,28,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13396",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.44,NA,mm,NA,NA,NA,29,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13397",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.71,NA,mm,NA,NA,NA,30,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13398",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.88,NA,mm,NA,NA,NA,31,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13399",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.38,NA,mm,NA,NA,NA,32,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13400",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.57,NA,mm,NA,NA,NA,33,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13437",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.42,NA,mm,NA,NA,NA,1,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13438",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.96,NA,mm,NA,NA,NA,2,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13439",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.35,NA,mm,NA,NA,NA,3,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13440",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.84,NA,mm,NA,NA,NA,4,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13441",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.38,NA,mm,NA,NA,NA,5,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13442",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.06,NA,mm,NA,NA,NA,6,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13443",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.81,NA,mm,NA,NA,NA,7,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13444",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.04,NA,mm,NA,NA,NA,8,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13445",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.16,NA,mm,NA,NA,NA,9,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13446",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.14,NA,mm,NA,NA,NA,10,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13447",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.67,NA,mm,NA,NA,NA,11,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13448",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.51,NA,mm,NA,NA,NA,12,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13449",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.98,NA,mm,NA,NA,NA,13,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13450",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.01,NA,mm,NA,NA,NA,14,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13451",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.57,NA,mm,NA,NA,NA,15,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13452",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.32,NA,mm,NA,NA,NA,16,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13453",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.5,NA,mm,NA,NA,NA,17,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13454",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.15,NA,mm,NA,NA,NA,18,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13455",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.55,NA,mm,NA,NA,NA,19,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13456",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.23,NA,mm,NA,NA,NA,20,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13457",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.03,NA,mm,NA,NA,NA,21,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13458",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.3,NA,mm,NA,NA,NA,22,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13459",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.73,NA,mm,NA,NA,NA,23,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13460",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.42,NA,mm,NA,NA,NA,24,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13461",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.76,NA,mm,NA,NA,NA,25,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13462",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9,NA,mm,NA,NA,NA,26,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13463",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.94,NA,mm,NA,NA,NA,27,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13464",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.57,NA,mm,NA,NA,NA,28,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13465",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.69,NA,mm,NA,NA,NA,29,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13466",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.01,NA,mm,NA,NA,NA,30,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13467",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.98,NA,mm,NA,NA,NA,31,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13468",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.67,NA,mm,NA,NA,NA,32,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13469",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.29,NA,mm,NA,NA,NA,33,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13501",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,1,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13502",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.28,NA,mm,NA,NA,NA,2,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13503",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.89,NA,mm,NA,NA,NA,3,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13504",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10,NA,mm,NA,NA,NA,4,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13505",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.37,NA,mm,NA,NA,NA,5,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13506",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.98,NA,mm,NA,NA,NA,6,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13507",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.05,NA,mm,NA,NA,NA,7,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13508",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.46,NA,mm,NA,NA,NA,8,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13509",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.35,NA,mm,NA,NA,NA,9,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13510",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.48,NA,mm,NA,NA,NA,10,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13511",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.99,NA,mm,NA,NA,NA,11,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13512",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.07,NA,mm,NA,NA,NA,12,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13513",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.42,NA,mm,NA,NA,NA,13,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13514",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,14,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13515",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.89,NA,mm,NA,NA,NA,15,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13516",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.45,NA,mm,NA,NA,NA,16,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13517",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.84,NA,mm,NA,NA,NA,17,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13518",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.74,NA,mm,NA,NA,NA,18,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13519",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.42,NA,mm,NA,NA,NA,19,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13520",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.17,NA,mm,NA,NA,NA,20,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13521",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.48,NA,mm,NA,NA,NA,21,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13522",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.09,NA,mm,NA,NA,NA,22,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13523",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.37,NA,mm,NA,NA,NA,23,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13524",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.9,NA,mm,NA,NA,NA,24,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13525",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.51,NA,mm,NA,NA,NA,25,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13526",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.08,NA,mm,NA,NA,NA,26,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13527",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.54,NA,mm,NA,NA,NA,27,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13528",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.59,NA,mm,NA,NA,NA,28,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13529",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.88,NA,mm,NA,NA,NA,29,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13530",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.44,NA,mm,NA,NA,NA,30,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13531",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.32,NA,mm,NA,NA,NA,31,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13532",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.26,NA,mm,NA,NA,NA,32,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13570",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.15,NA,mm,NA,NA,NA,1,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13571",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.36,NA,mm,NA,NA,NA,2,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13572",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.41,NA,mm,NA,NA,NA,3,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13573",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.64,NA,mm,NA,NA,NA,4,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13574",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.81,NA,mm,NA,NA,NA,5,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13575",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.04,NA,mm,NA,NA,NA,6,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13576",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.57,NA,mm,NA,NA,NA,7,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13577",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.32,NA,mm,NA,NA,NA,8,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13578",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.86,NA,mm,NA,NA,NA,9,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13579",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.49,NA,mm,NA,NA,NA,10,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13580",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.42,NA,mm,NA,NA,NA,11,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13581",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.46,NA,mm,NA,NA,NA,12,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13582",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.22,NA,mm,NA,NA,NA,13,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13583",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.8,NA,mm,NA,NA,NA,14,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13584",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.83,NA,mm,NA,NA,NA,15,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13585",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.16,NA,mm,NA,NA,NA,16,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13586",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.65,NA,mm,NA,NA,NA,17,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13587",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.69,NA,mm,NA,NA,NA,18,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13588",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.25,NA,mm,NA,NA,NA,19,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13589",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.38,NA,mm,NA,NA,NA,20,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13590",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.01,NA,mm,NA,NA,NA,21,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13591",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.85,NA,mm,NA,NA,NA,22,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13592",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.42,NA,mm,NA,NA,NA,23,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13593",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.39,NA,mm,NA,NA,NA,24,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13594",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.95,NA,mm,NA,NA,NA,25,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13595",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.36,NA,mm,NA,NA,NA,26,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13596",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.33,NA,mm,NA,NA,NA,27,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13597",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.73,NA,mm,NA,NA,NA,28,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13598",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.21,NA,mm,NA,NA,NA,29,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13599",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.97,NA,mm,NA,NA,NA,30,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13600",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.86,NA,mm,NA,NA,NA,31,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13601",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.06,NA,mm,NA,NA,NA,32,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13602",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.05,NA,mm,NA,NA,NA,33,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13603",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.44,NA,mm,NA,NA,NA,34,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13604",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.19,NA,mm,NA,NA,NA,35,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13605",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.15,NA,mm,NA,NA,NA,36,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13637",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.13,NA,mm,NA,NA,NA,1,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13638",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.78,NA,mm,NA,NA,NA,2,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13639",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.59,NA,mm,NA,NA,NA,3,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13640",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.81,NA,mm,NA,NA,NA,4,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13641",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.59,NA,mm,NA,NA,NA,5,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13642",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.93,NA,mm,NA,NA,NA,6,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13643",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.14,NA,mm,NA,NA,NA,7,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13644",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.35,NA,mm,NA,NA,NA,8,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13645",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.2,NA,mm,NA,NA,NA,9,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13646",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.42,NA,mm,NA,NA,NA,10,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13647",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.15,NA,mm,NA,NA,NA,11,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13648",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.33,NA,mm,NA,NA,NA,12,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13649",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10,NA,mm,NA,NA,NA,13,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13650",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.9,NA,mm,NA,NA,NA,14,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13651",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.66,NA,mm,NA,NA,NA,15,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13652",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.22,NA,mm,NA,NA,NA,16,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13653",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.63,NA,mm,NA,NA,NA,17,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13654",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.11,NA,mm,NA,NA,NA,18,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13655",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.45,NA,mm,NA,NA,NA,19,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13656",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.25,NA,mm,NA,NA,NA,20,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13657",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.58,NA,mm,NA,NA,NA,21,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13658",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.68,NA,mm,NA,NA,NA,22,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13659",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.31,NA,mm,NA,NA,NA,23,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13660",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.71,NA,mm,NA,NA,NA,24,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13661",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.5,NA,mm,NA,NA,NA,25,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13662",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.82,NA,mm,NA,NA,NA,26,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13663",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.07,NA,mm,NA,NA,NA,27,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13664",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.37,NA,mm,NA,NA,NA,28,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13665",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.13,NA,mm,NA,NA,NA,29,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13666",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.62,NA,mm,NA,NA,NA,30,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13667",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.48,NA,mm,NA,NA,NA,31,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13705",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.11,NA,mm,NA,NA,NA,1,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13706",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,2,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13707",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.75,NA,mm,NA,NA,NA,3,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13708",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.18,NA,mm,NA,NA,NA,4,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13709",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.27,NA,mm,NA,NA,NA,5,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13710",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.29,NA,mm,NA,NA,NA,6,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13711",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.2,NA,mm,NA,NA,NA,7,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13712",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.07,NA,mm,NA,NA,NA,8,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13713",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.36,NA,mm,NA,NA,NA,9,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13714",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.38,NA,mm,NA,NA,NA,10,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13715",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.67,NA,mm,NA,NA,NA,11,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13716",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.56,NA,mm,NA,NA,NA,12,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13717",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.23,NA,mm,NA,NA,NA,13,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13718",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.4,NA,mm,NA,NA,NA,14,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13719",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.34,NA,mm,NA,NA,NA,15,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13720",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.73,NA,mm,NA,NA,NA,16,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13721",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.81,NA,mm,NA,NA,NA,17,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13722",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.62,NA,mm,NA,NA,NA,18,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13723",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.75,NA,mm,NA,NA,NA,19,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13724",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.7,NA,mm,NA,NA,NA,20,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13725",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.05,NA,mm,NA,NA,NA,21,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13726",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.54,NA,mm,NA,NA,NA,22,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13727",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.83,NA,mm,NA,NA,NA,23,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13728",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.69,NA,mm,NA,NA,NA,24,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13729",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.2,NA,mm,NA,NA,NA,25,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13730",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.25,NA,mm,NA,NA,NA,26,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13731",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.97,NA,mm,NA,NA,NA,27,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13732",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.21,NA,mm,NA,NA,NA,28,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13733",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.87,NA,mm,NA,NA,NA,29,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13734",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.2,NA,mm,NA,NA,NA,30,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13735",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.31,NA,mm,NA,NA,NA,31,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13736",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.47,NA,mm,NA,NA,NA,32,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13737",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.62,NA,mm,NA,NA,NA,33,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13738",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.19,NA,mm,NA,NA,NA,34,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13739",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.01,NA,mm,NA,NA,NA,35,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13740",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.08,NA,mm,NA,NA,NA,36,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13741",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.11,NA,mm,NA,NA,NA,37,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13742",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.01,NA,mm,NA,NA,NA,38,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13777",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.52,NA,mm,NA,NA,NA,1,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13778",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.77,NA,mm,NA,NA,NA,2,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13779",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.1,NA,mm,NA,NA,NA,3,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13780",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.47,NA,mm,NA,NA,NA,4,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13781",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.44,NA,mm,NA,NA,NA,5,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13782",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.54,NA,mm,NA,NA,NA,6,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13783",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.74,NA,mm,NA,NA,NA,7,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13784",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.07,NA,mm,NA,NA,NA,8,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13785",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.59,NA,mm,NA,NA,NA,9,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13786",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.01,NA,mm,NA,NA,NA,10,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13787",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.51,NA,mm,NA,NA,NA,11,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13788",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.88,NA,mm,NA,NA,NA,12,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13789",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.54,NA,mm,NA,NA,NA,13,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13790",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,14,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13791",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,15,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13792",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.86,NA,mm,NA,NA,NA,16,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13793",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.33,NA,mm,NA,NA,NA,17,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13794",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.68,NA,mm,NA,NA,NA,18,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13795",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.82,NA,mm,NA,NA,NA,19,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13796",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.52,NA,mm,NA,NA,NA,20,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13797",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.84,NA,mm,NA,NA,NA,21,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13798",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.6,NA,mm,NA,NA,NA,22,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13799",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.48,NA,mm,NA,NA,NA,23,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13800",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.34,NA,mm,NA,NA,NA,24,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13801",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.89,NA,mm,NA,NA,NA,25,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13802",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.69,NA,mm,NA,NA,NA,26,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13803",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.48,NA,mm,NA,NA,NA,27,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13804",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.02,NA,mm,NA,NA,NA,28,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13805",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.89,NA,mm,NA,NA,NA,29,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13806",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.88,NA,mm,NA,NA,NA,30,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13807",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.35,NA,mm,NA,NA,NA,31,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13808",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.03,NA,mm,NA,NA,NA,32,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13809",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.81,NA,mm,NA,NA,NA,33,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13810",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.39,NA,mm,NA,NA,NA,34,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13811",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.62,NA,mm,NA,NA,NA,35,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13812",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.26,NA,mm,NA,NA,NA,36,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13813",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.62,NA,mm,NA,NA,NA,37,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13814",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.22,NA,mm,NA,NA,NA,38,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13815",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.33,NA,mm,NA,NA,NA,39,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13816",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.71,NA,mm,NA,NA,NA,40,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13852",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.27,NA,mm,NA,NA,NA,1,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13853",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.08,NA,mm,NA,NA,NA,2,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13854",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,3,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13855",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.76,NA,mm,NA,NA,NA,4,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13856",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.11,NA,mm,NA,NA,NA,5,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13857",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.42,NA,mm,NA,NA,NA,6,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13858",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.31,NA,mm,NA,NA,NA,7,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13859",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.18,NA,mm,NA,NA,NA,8,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13860",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.95,NA,mm,NA,NA,NA,9,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13861",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.32,NA,mm,NA,NA,NA,10,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13862",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.2,NA,mm,NA,NA,NA,11,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13863",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.88,NA,mm,NA,NA,NA,12,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13864",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,13,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13865",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.94,NA,mm,NA,NA,NA,14,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13866",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.98,NA,mm,NA,NA,NA,15,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13867",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.36,NA,mm,NA,NA,NA,16,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13868",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.97,NA,mm,NA,NA,NA,17,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13869",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.94,NA,mm,NA,NA,NA,18,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13870",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.13,NA,mm,NA,NA,NA,19,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13871",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.05,NA,mm,NA,NA,NA,20,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13872",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.81,NA,mm,NA,NA,NA,21,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13873",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.28,NA,mm,NA,NA,NA,22,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13874",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.65,NA,mm,NA,NA,NA,23,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13875",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.01,NA,mm,NA,NA,NA,24,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13876",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.41,NA,mm,NA,NA,NA,25,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13877",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.63,NA,mm,NA,NA,NA,26,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13878",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.41,NA,mm,NA,NA,NA,27,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13879",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.33,NA,mm,NA,NA,NA,28,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13880",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.09,NA,mm,NA,NA,NA,29,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13881",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.84,NA,mm,NA,NA,NA,30,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13882",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.95,NA,mm,NA,NA,NA,31,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13883",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.12,NA,mm,NA,NA,NA,32,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13884",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.06,NA,mm,NA,NA,NA,33,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13885",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.15,NA,mm,NA,NA,NA,34,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13886",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.01,NA,mm,NA,NA,NA,35,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13887",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.16,NA,mm,NA,NA,NA,36,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13888",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.9,NA,mm,NA,NA,NA,37,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13889",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.35,NA,mm,NA,NA,NA,38,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13923",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.9,NA,mm,NA,NA,NA,1,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13924",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.45,NA,mm,NA,NA,NA,2,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13925",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.15,NA,mm,NA,NA,NA,3,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13962",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.58,NA,mm,NA,NA,NA,1,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13963",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.55,NA,mm,NA,NA,NA,2,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13964",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.12,NA,mm,NA,NA,NA,3,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13965",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.8,NA,mm,NA,NA,NA,4,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13966",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.36,NA,mm,NA,NA,NA,5,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13967",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.36,NA,mm,NA,NA,NA,6,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13968",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.93,NA,mm,NA,NA,NA,7,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13969",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.43,NA,mm,NA,NA,NA,8,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13970",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.72,NA,mm,NA,NA,NA,9,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13971",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.96,NA,mm,NA,NA,NA,10,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13972",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.49,NA,mm,NA,NA,NA,11,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13973",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.37,NA,mm,NA,NA,NA,12,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13974",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.32,NA,mm,NA,NA,NA,13,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13975",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.54,NA,mm,NA,NA,NA,14,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13976",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.55,NA,mm,NA,NA,NA,15,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13977",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.81,NA,mm,NA,NA,NA,16,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13978",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.07,NA,mm,NA,NA,NA,17,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13979",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.39,NA,mm,NA,NA,NA,18,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13980",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.5,NA,mm,NA,NA,NA,19,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13981",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.82,NA,mm,NA,NA,NA,20,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13982",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.07,NA,mm,NA,NA,NA,21,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13983",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.95,NA,mm,NA,NA,NA,22,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13984",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.07,NA,mm,NA,NA,NA,23,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13985",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.78,NA,mm,NA,NA,NA,24,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13986",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.1,NA,mm,NA,NA,NA,25,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14007",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.28,NA,mm,NA,NA,NA,1,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14008",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.05,NA,mm,NA,NA,NA,2,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14009",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,3,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14010",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.31,NA,mm,NA,NA,NA,4,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14011",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.2,NA,mm,NA,NA,NA,5,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14012",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.52,NA,mm,NA,NA,NA,6,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14013",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.79,NA,mm,NA,NA,NA,7,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14014",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.45,NA,mm,NA,NA,NA,8,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14015",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.6,NA,mm,NA,NA,NA,9,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14016",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.79,NA,mm,NA,NA,NA,10,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14017",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,11,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14018",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.01,NA,mm,NA,NA,NA,12,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14019",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.8,NA,mm,NA,NA,NA,13,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14020",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.67,NA,mm,NA,NA,NA,14,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14021",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.7,NA,mm,NA,NA,NA,15,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14022",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.63,NA,mm,NA,NA,NA,16,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14023",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.04,NA,mm,NA,NA,NA,17,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14024",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.98,NA,mm,NA,NA,NA,18,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14061",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.9,NA,mm,NA,NA,NA,1,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14062",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.84,NA,mm,NA,NA,NA,2,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14063",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.7,NA,mm,NA,NA,NA,3,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14064",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.08,NA,mm,NA,NA,NA,4,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14065",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.79,NA,mm,NA,NA,NA,5,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14066",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.23,NA,mm,NA,NA,NA,6,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14067",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.96,NA,mm,NA,NA,NA,7,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14068",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.63,NA,mm,NA,NA,NA,8,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14069",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.95,NA,mm,NA,NA,NA,9,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14070",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.73,NA,mm,NA,NA,NA,10,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14071",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.52,NA,mm,NA,NA,NA,11,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14072",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.38,NA,mm,NA,NA,NA,12,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14073",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.27,NA,mm,NA,NA,NA,13,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14074",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.09,NA,mm,NA,NA,NA,14,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14075",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.5,NA,mm,NA,NA,NA,15,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14088",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,1,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14089",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.4,NA,mm,NA,NA,NA,2,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14090",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.95,NA,mm,NA,NA,NA,3,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14091",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9,NA,mm,NA,NA,NA,4,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14092",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.42,NA,mm,NA,NA,NA,5,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13087",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,1,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13088",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,2,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13089",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.18,NA,mm,NA,NA,NA,3,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13090",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,4,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13091",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.1,NA,mm,NA,NA,NA,5,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13092",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,6,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13093",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.91,NA,mm,NA,NA,NA,7,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13094",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,8,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13095",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,9,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13096",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.46,NA,mm,NA,NA,NA,10,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13097",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,11,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13098",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,12,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13099",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,13,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13100",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.96,NA,mm,NA,NA,NA,14,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13101",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,15,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13102",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.78,NA,mm,NA,NA,NA,16,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13103",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,17,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13104",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,18,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13105",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.58,NA,mm,NA,NA,NA,19,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13106",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.48,NA,mm,NA,NA,NA,20,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13107",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,21,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13108",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,22,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13109",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,23,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13110",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,24,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13111",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,25,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13112",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,26,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13113",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,27,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13114",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,28,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13115",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,29,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13116",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.86,NA,mm,NA,NA,NA,30,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13117",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,31,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13118",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.19,NA,mm,NA,NA,NA,32,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13119",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.38,NA,mm,NA,NA,NA,33,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13120",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,34,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13121",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,35,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13122",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,36,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13123",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,37,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13124",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,38,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13160",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.59,NA,mm,NA,NA,NA,1,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13161",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,2,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13162",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,3,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13163",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,4,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13164",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,5,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13165",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,6,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13166",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.46,NA,mm,NA,NA,NA,7,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13167",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.86,NA,mm,NA,NA,NA,8,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13168",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,9,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13169",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,10,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13170",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.11,NA,mm,NA,NA,NA,11,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13171",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,12,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13172",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,13,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13173",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,14,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13174",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.2,NA,mm,NA,NA,NA,15,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13175",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,16,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13176",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.2,NA,mm,NA,NA,NA,17,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13177",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.97,NA,mm,NA,NA,NA,18,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13178",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.38,NA,mm,NA,NA,NA,19,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13179",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.96,NA,mm,NA,NA,NA,20,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13180",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.39,NA,mm,NA,NA,NA,21,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13181",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,22,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13182",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,23,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13183",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.17,NA,mm,NA,NA,NA,24,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13184",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.07,NA,mm,NA,NA,NA,25,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13185",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.28,NA,mm,NA,NA,NA,26,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13186",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.19,NA,mm,NA,NA,NA,27,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13187",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,28,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13188",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.23,NA,mm,NA,NA,NA,29,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13189",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.19,NA,mm,NA,NA,NA,30,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13190",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,31,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13191",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.24,NA,mm,NA,NA,NA,32,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13192",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.94,NA,mm,NA,NA,NA,33,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13193",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,34,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13194",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,35,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13195",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,36,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13196",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.73,NA,mm,NA,NA,NA,37,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13235",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,1,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13236",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.64,NA,mm,NA,NA,NA,2,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13237",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,3,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13238",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,4,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13239",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.14,NA,mm,NA,NA,NA,5,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13240",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.04,NA,mm,NA,NA,NA,6,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13241",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,7,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13242",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,8,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13243",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.02,NA,mm,NA,NA,NA,9,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13244",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,10,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13245",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,11,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13246",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,12,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13247",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,13,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13248",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,14,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13249",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.98,NA,mm,NA,NA,NA,15,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13250",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.7,NA,mm,NA,NA,NA,16,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13251",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,17,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13252",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,18,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13253",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,19,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13254",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4,NA,mm,NA,NA,NA,20,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13255",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,21,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13256",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,22,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13257",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.06,NA,mm,NA,NA,NA,23,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13258",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.32,NA,mm,NA,NA,NA,24,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13259",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,25,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13260",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,26,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13261",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.87,NA,mm,NA,NA,NA,27,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13262",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.93,NA,mm,NA,NA,NA,28,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13263",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,29,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13264",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.32,NA,mm,NA,NA,NA,30,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13265",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,31,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13266",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,32,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13301",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,1,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13302",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.8,NA,mm,NA,NA,NA,2,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13303",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.28,NA,mm,NA,NA,NA,3,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13304",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,4,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13305",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.94,NA,mm,NA,NA,NA,5,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13306",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,6,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13307",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.13,NA,mm,NA,NA,NA,7,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13308",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.96,NA,mm,NA,NA,NA,8,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13309",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,9,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13310",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.92,NA,mm,NA,NA,NA,10,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13311",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.32,NA,mm,NA,NA,NA,11,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13312",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.02,NA,mm,NA,NA,NA,12,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13313",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.87,NA,mm,NA,NA,NA,13,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13314",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,14,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13315",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,15,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13316",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.56,NA,mm,NA,NA,NA,16,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13317",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,17,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13318",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.12,NA,mm,NA,NA,NA,18,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13319",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,19,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13320",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.14,NA,mm,NA,NA,NA,20,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13321",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,21,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13322",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,22,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13323",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.75,NA,mm,NA,NA,NA,23,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13324",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,24,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13325",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,25,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13326",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,26,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13327",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4,NA,mm,NA,NA,NA,27,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13328",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,28,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13329",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,29,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13330",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,30,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13331",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.78,NA,mm,NA,NA,NA,31,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13332",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.11,NA,mm,NA,NA,NA,32,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13368",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,1,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13369",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.12,NA,mm,NA,NA,NA,2,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13370",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.56,NA,mm,NA,NA,NA,3,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13371",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,4,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13372",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,5,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13373",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4,NA,mm,NA,NA,NA,6,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13374",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.23,NA,mm,NA,NA,NA,7,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13375",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,8,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13376",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.23,NA,mm,NA,NA,NA,9,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13377",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.6,NA,mm,NA,NA,NA,10,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13378",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,11,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13379",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,12,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13380",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,13,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13381",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,14,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13382",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,15,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13383",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,16,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13384",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,17,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13385",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,18,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13386",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.28,NA,mm,NA,NA,NA,19,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13387",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.15,NA,mm,NA,NA,NA,20,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13388",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,21,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13389",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.77,NA,mm,NA,NA,NA,22,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13390",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,23,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13391",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,24,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13392",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,25,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13393",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,26,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13394",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,27,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13395",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,28,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13396",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,29,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13397",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,30,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13398",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,31,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13399",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.13,NA,mm,NA,NA,NA,32,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13400",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,33,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13437",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.1,NA,mm,NA,NA,NA,1,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13438",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.39,NA,mm,NA,NA,NA,2,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13439",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.11,NA,mm,NA,NA,NA,3,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13440",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,4,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13441",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,5,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13442",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.78,NA,mm,NA,NA,NA,6,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13443",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,7,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13444",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,8,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13445",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,9,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13446",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,10,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13447",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.01,NA,mm,NA,NA,NA,11,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13448",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,12,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13449",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.77,NA,mm,NA,NA,NA,13,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13450",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,14,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13451",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,15,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13452",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.15,NA,mm,NA,NA,NA,16,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13453",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.02,NA,mm,NA,NA,NA,17,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13454",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,18,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13455",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,19,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13456",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.8,NA,mm,NA,NA,NA,20,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13457",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.81,NA,mm,NA,NA,NA,21,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13458",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,22,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13459",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,23,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13460",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.04,NA,mm,NA,NA,NA,24,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13461",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,25,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13462",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.02,NA,mm,NA,NA,NA,26,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13463",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,27,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13464",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.28,NA,mm,NA,NA,NA,28,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13465",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,29,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13466",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,30,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13467",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.95,NA,mm,NA,NA,NA,31,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13468",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.81,NA,mm,NA,NA,NA,32,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13469",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,33,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13501",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,1,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13502",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,2,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13503",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,3,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13504",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,4,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13505",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.84,NA,mm,NA,NA,NA,5,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13506",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,6,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13507",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,7,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13508",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.49,NA,mm,NA,NA,NA,8,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13509",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,9,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13510",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.93,NA,mm,NA,NA,NA,10,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13511",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,11,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13512",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,12,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13513",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.04,NA,mm,NA,NA,NA,13,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13514",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.73,NA,mm,NA,NA,NA,14,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13515",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,15,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13516",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.38,NA,mm,NA,NA,NA,16,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13517",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,17,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13518",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,18,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13519",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,19,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13520",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,20,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13521",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.08,NA,mm,NA,NA,NA,21,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13522",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,22,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13523",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.46,NA,mm,NA,NA,NA,23,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13524",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,24,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13525",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,25,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13526",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.75,NA,mm,NA,NA,NA,26,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13527",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.94,NA,mm,NA,NA,NA,27,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13528",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.23,NA,mm,NA,NA,NA,28,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13529",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,29,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13530",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,30,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13531",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,31,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13532",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,32,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13570",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,1,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13571",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.2,NA,mm,NA,NA,NA,2,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13572",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,3,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13573",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,4,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13574",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.93,NA,mm,NA,NA,NA,5,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13575",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.12,NA,mm,NA,NA,NA,6,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13576",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,7,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13577",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.3,NA,mm,NA,NA,NA,8,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13578",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.3,NA,mm,NA,NA,NA,9,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13579",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.89,NA,mm,NA,NA,NA,10,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13580",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.3,NA,mm,NA,NA,NA,11,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13581",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.93,NA,mm,NA,NA,NA,12,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13582",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,13,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13583",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.49,NA,mm,NA,NA,NA,14,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13584",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,15,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13585",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,16,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13586",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,17,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13587",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,18,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13588",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.99,NA,mm,NA,NA,NA,19,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13589",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.01,NA,mm,NA,NA,NA,20,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13590",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,21,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13591",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,22,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13592",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.95,NA,mm,NA,NA,NA,23,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13593",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.06,NA,mm,NA,NA,NA,24,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13594",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,25,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13595",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,26,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13596",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4,NA,mm,NA,NA,NA,27,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13597",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,28,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13598",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,29,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13599",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.75,NA,mm,NA,NA,NA,30,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13600",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.99,NA,mm,NA,NA,NA,31,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13601",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,32,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13602",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,33,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13603",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.97,NA,mm,NA,NA,NA,34,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13604",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.28,NA,mm,NA,NA,NA,35,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13605",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,36,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13637",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,1,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13638",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,2,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13639",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,3,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13640",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.56,NA,mm,NA,NA,NA,4,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13641",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,5,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13642",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,6,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13643",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,7,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13644",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.55,NA,mm,NA,NA,NA,8,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13645",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.76,NA,mm,NA,NA,NA,9,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13646",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.18,NA,mm,NA,NA,NA,10,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13647",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.2,NA,mm,NA,NA,NA,11,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13648",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.66,NA,mm,NA,NA,NA,12,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13649",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,13,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13650",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,14,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13651",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,15,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13652",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,16,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13653",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,17,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13654",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,18,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13655",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,19,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13656",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.9,NA,mm,NA,NA,NA,20,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13657",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,21,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13658",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,22,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13659",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.05,NA,mm,NA,NA,NA,23,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13660",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.97,NA,mm,NA,NA,NA,24,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13661",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.12,NA,mm,NA,NA,NA,25,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13662",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,26,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13663",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,27,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13664",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.83,NA,mm,NA,NA,NA,28,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13665",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,29,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13666",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,30,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13667",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,31,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13705",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.2,NA,mm,NA,NA,NA,1,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13706",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,2,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13707",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4,NA,mm,NA,NA,NA,3,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13708",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4,NA,mm,NA,NA,NA,4,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13709",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.02,NA,mm,NA,NA,NA,5,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13710",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.96,NA,mm,NA,NA,NA,6,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13711",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,7,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13712",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,8,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13713",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.36,NA,mm,NA,NA,NA,9,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13714",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,10,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13715",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,11,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13716",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.03,NA,mm,NA,NA,NA,12,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13717",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,13,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13718",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,14,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13719",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,15,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13720",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,16,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13721",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.24,NA,mm,NA,NA,NA,17,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13722",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,18,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13723",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,19,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13724",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.04,NA,mm,NA,NA,NA,20,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13725",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.99,NA,mm,NA,NA,NA,21,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13726",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.11,NA,mm,NA,NA,NA,22,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13727",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.94,NA,mm,NA,NA,NA,23,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13728",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,24,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13729",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.98,NA,mm,NA,NA,NA,25,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13730",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,26,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13731",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.93,NA,mm,NA,NA,NA,27,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13732",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.8,NA,mm,NA,NA,NA,28,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13733",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.9,NA,mm,NA,NA,NA,29,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13734",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,30,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13735",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,31,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13736",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.9,NA,mm,NA,NA,NA,32,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13737",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,33,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13738",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,34,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13739",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.15,NA,mm,NA,NA,NA,35,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13740",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.48,NA,mm,NA,NA,NA,36,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13741",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.73,NA,mm,NA,NA,NA,37,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13742",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,38,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13777",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.9,NA,mm,NA,NA,NA,1,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13778",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,2,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13779",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.87,NA,mm,NA,NA,NA,3,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13780",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.23,NA,mm,NA,NA,NA,4,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13781",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.16,NA,mm,NA,NA,NA,5,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13782",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,6,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13783",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,7,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13784",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,8,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13785",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,9,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13786",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,10,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13787",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,11,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13788",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,12,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13789",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.22,NA,mm,NA,NA,NA,13,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13790",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,14,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13791",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,15,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13792",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,16,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13793",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.86,NA,mm,NA,NA,NA,17,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13794",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.11,NA,mm,NA,NA,NA,18,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13795",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,19,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13796",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,20,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13797",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,21,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13798",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.73,NA,mm,NA,NA,NA,22,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13799",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,23,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13800",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.48,NA,mm,NA,NA,NA,24,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13801",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,25,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13802",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.96,NA,mm,NA,NA,NA,26,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13803",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,27,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13804",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,28,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13805",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,29,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13806",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.46,NA,mm,NA,NA,NA,30,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13807",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,31,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13808",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.18,NA,mm,NA,NA,NA,32,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13809",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,33,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13810",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.14,NA,mm,NA,NA,NA,34,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13811",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,35,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13812",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,36,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13813",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,37,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13814",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,38,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13815",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,39,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13816",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.27,NA,mm,NA,NA,NA,40,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13852",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,1,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13853",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,2,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13854",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.18,NA,mm,NA,NA,NA,3,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13855",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,4,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13856",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,5,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13857",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,6,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13858",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,7,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13859",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,8,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13860",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,9,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13861",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,10,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13862",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.6,NA,mm,NA,NA,NA,11,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13863",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.91,NA,mm,NA,NA,NA,12,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13864",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,13,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13865",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.96,NA,mm,NA,NA,NA,14,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13866",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.8,NA,mm,NA,NA,NA,15,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13867",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,16,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13868",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,17,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13869",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,18,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13870",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,19,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13871",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,20,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13872",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,21,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13873",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,22,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13874",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,23,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13875",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,24,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13876",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.73,NA,mm,NA,NA,NA,25,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13877",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.81,NA,mm,NA,NA,NA,26,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13878",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,27,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13879",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,28,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13880",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.06,NA,mm,NA,NA,NA,29,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13881",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.91,NA,mm,NA,NA,NA,30,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13882",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,31,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13883",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,32,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13884",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.15,NA,mm,NA,NA,NA,33,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13885",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,34,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13886",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.48,NA,mm,NA,NA,NA,35,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13887",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.8,NA,mm,NA,NA,NA,36,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13888",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.38,NA,mm,NA,NA,NA,37,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13889",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,38,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13923",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.99,NA,mm,NA,NA,NA,1,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13924",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,2,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13925",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,3,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13962",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.1,NA,mm,NA,NA,NA,1,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13963",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,2,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13964",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.08,NA,mm,NA,NA,NA,3,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13965",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,4,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13966",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,5,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13967",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,6,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13968",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,7,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13969",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.11,NA,mm,NA,NA,NA,8,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13970",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,9,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13971",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,10,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13972",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.15,NA,mm,NA,NA,NA,11,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13973",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,12,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13974",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,13,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13975",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,14,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13976",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.18,NA,mm,NA,NA,NA,15,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13977",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.15,NA,mm,NA,NA,NA,16,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13978",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,17,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13979",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.24,NA,mm,NA,NA,NA,18,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13980",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.38,NA,mm,NA,NA,NA,19,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13981",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.96,NA,mm,NA,NA,NA,20,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13982",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.14,NA,mm,NA,NA,NA,21,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13983",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.86,NA,mm,NA,NA,NA,22,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13984",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,23,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13985",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,24,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13986",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.87,NA,mm,NA,NA,NA,25,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14007",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,1,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14008",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,2,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14009",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,3,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14010",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,4,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14011",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.81,NA,mm,NA,NA,NA,5,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14012",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.17,NA,mm,NA,NA,NA,6,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14013",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.86,NA,mm,NA,NA,NA,7,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14014",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,8,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14015",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.23,NA,mm,NA,NA,NA,9,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14016",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,2.96,NA,mm,NA,NA,NA,10,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14017",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,11,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14018",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,12,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14019",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,13,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14020",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.38,NA,mm,NA,NA,NA,14,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14021",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.12,NA,mm,NA,NA,NA,15,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14022",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.13,NA,mm,NA,NA,NA,16,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14023",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.14,NA,mm,NA,NA,NA,17,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14024",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,18,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14061",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,1,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14062",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,2,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14063",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,3,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14064",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,4,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14065",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,5,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14066",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,6,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14067",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.73,NA,mm,NA,NA,NA,7,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14068",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,8,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14069",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.93,NA,mm,NA,NA,NA,9,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14070",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,10,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14071",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,11,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14072",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,12,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14073",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,13,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14074",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,14,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14075",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,15,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14088",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,1,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14089",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,4.14,NA,mm,NA,NA,NA,2,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14090",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.91,NA,mm,NA,NA,NA,3,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14091",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,4,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14092",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,5,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus lapidarius,gbif:1340301,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,individual,90%,single observation,NA,1,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,queen,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus lapidarius,gbif:1340301,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,90%,mean,NA,5,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,worker,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus lapidarius,gbif:1340301,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.15,mean,mm,NA,0.25,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,4.9,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.97,mean,mm,325,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.8,mean,mm,NA,0.41,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13087",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.95,NA,mm,NA,NA,NA,1,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13088",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.04,NA,mm,NA,NA,NA,2,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13089",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,3,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13090",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,4,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13091",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,5,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13092",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,6,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13093",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,7,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13094",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.47,NA,mm,NA,NA,NA,8,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13095",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,9,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13096",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,10,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13097",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,11,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13098",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.55,NA,mm,NA,NA,NA,12,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13099",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,13,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13100",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.84,NA,mm,NA,NA,NA,14,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13101",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.76,NA,mm,NA,NA,NA,15,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13102",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,16,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13103",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,17,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13104",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,18,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13105",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,19,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13106",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,20,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13107",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.68,NA,mm,NA,NA,NA,21,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13108",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,22,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13109",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,23,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13110",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.53,NA,mm,NA,NA,NA,24,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13111",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.68,NA,mm,NA,NA,NA,25,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13112",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.78,NA,mm,NA,NA,NA,26,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13113",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,27,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13114",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.06,NA,mm,NA,NA,NA,28,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13115",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,29,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13116",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,30,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13117",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,31,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13118",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,32,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13119",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,33,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13120",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,34,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13121",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,35,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13122",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,36,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13123",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,37,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13124",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.65,NA,mm,NA,NA,NA,38,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13160",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.18,NA,mm,NA,NA,NA,1,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13161",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.62,NA,mm,NA,NA,NA,2,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13162",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,3,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13163",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,4,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13164",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,5,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13165",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,6,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13166",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,7,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13167",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.22,NA,mm,NA,NA,NA,8,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13168",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,9,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13169",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.78,NA,mm,NA,NA,NA,10,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13170",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,11,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13171",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,12,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13172",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.75,NA,mm,NA,NA,NA,13,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13173",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.61,NA,mm,NA,NA,NA,14,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13174",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,15,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13175",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,16,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13176",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.43,NA,mm,NA,NA,NA,17,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13177",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.01,NA,mm,NA,NA,NA,18,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13178",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,19,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13179",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.77,NA,mm,NA,NA,NA,20,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13180",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,21,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13181",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,22,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13182",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,23,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13183",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,24,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13184",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.92,NA,mm,NA,NA,NA,25,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13185",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,26,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13186",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.95,NA,mm,NA,NA,NA,27,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13187",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,28,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13188",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,29,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13189",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,30,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13190",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,31,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13191",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,32,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13192",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.75,NA,mm,NA,NA,NA,33,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13193",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.41,NA,mm,NA,NA,NA,34,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13194",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,35,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13195",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,36,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13196",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.76,NA,mm,NA,NA,NA,37,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13235",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,1,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13236",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.9,NA,mm,NA,NA,NA,2,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13237",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,3,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13238",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,4,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13239",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,5,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13240",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,6,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13241",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,7,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13242",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,8,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13243",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.67,NA,mm,NA,NA,NA,9,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13244",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.79,NA,mm,NA,NA,NA,10,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13245",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.72,NA,mm,NA,NA,NA,11,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13246",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,12,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13247",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.71,NA,mm,NA,NA,NA,13,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13248",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.59,NA,mm,NA,NA,NA,14,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13249",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,15,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13250",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.73,NA,mm,NA,NA,NA,16,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13251",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,17,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13252",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,18,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13253",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.77,NA,mm,NA,NA,NA,19,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13254",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.7,NA,mm,NA,NA,NA,20,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13255",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,21,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13256",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.49,NA,mm,NA,NA,NA,22,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13257",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.72,NA,mm,NA,NA,NA,23,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13258",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.95,NA,mm,NA,NA,NA,24,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13259",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,25,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13260",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,26,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13261",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,27,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13262",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.95,NA,mm,NA,NA,NA,28,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13263",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,29,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13264",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,30,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13265",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,31,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13266",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,32,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13301",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,1,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13302",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,2,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13303",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,3,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13304",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,4,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13305",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,5,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13306",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,6,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13307",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,7,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13308",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,8,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13309",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,9,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13310",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,10,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13311",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.41,NA,mm,NA,NA,NA,11,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13312",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,12,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13313",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.72,NA,mm,NA,NA,NA,13,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13314",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,14,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13315",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.24,NA,mm,NA,NA,NA,15,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13316",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,16,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13317",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,17,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13318",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,18,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13319",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,19,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13320",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,20,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13321",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,21,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13322",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,22,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13323",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,23,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13324",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,24,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13325",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,25,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13326",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,26,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13327",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.7,NA,mm,NA,NA,NA,27,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13328",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,28,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13329",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.76,NA,mm,NA,NA,NA,29,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13330",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,30,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13331",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,31,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13332",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,32,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13368",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,1,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13369",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,2,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13370",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.24,NA,mm,NA,NA,NA,3,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13371",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,4,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13372",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,5,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13373",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4,NA,mm,NA,NA,NA,6,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13374",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,7,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13375",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,8,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13376",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,9,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13377",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,10,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13378",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,11,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13379",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,12,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13380",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.84,NA,mm,NA,NA,NA,13,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13381",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.34,NA,mm,NA,NA,NA,14,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13382",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,15,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13383",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,16,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13384",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,17,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13385",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.96,NA,mm,NA,NA,NA,18,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13386",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,19,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13387",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.85,NA,mm,NA,NA,NA,20,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13388",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,21,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13389",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,22,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13390",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.74,NA,mm,NA,NA,NA,23,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13391",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,24,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13392",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,25,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13393",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,26,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13394",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,27,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13395",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,28,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13396",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.86,NA,mm,NA,NA,NA,29,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13397",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,30,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13398",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,31,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13399",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.11,NA,mm,NA,NA,NA,32,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13400",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,33,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13437",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.84,NA,mm,NA,NA,NA,1,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13438",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,2,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13439",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.06,NA,mm,NA,NA,NA,3,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13440",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,4,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13441",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,5,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13442",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.68,NA,mm,NA,NA,NA,6,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13443",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,7,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13444",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,8,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13445",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,9,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13446",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,10,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13447",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.69,NA,mm,NA,NA,NA,11,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13448",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,12,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13449",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,13,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13450",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,14,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13451",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,15,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13452",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,16,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13453",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.68,NA,mm,NA,NA,NA,17,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13454",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,18,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13455",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,19,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13456",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,20,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13457",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.74,NA,mm,NA,NA,NA,21,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13458",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.43,NA,mm,NA,NA,NA,22,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13459",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,23,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13460",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,24,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13461",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,25,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13462",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,26,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13463",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,27,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13464",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,28,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13465",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,29,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13466",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,30,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13467",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.82,NA,mm,NA,NA,NA,31,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13468",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,32,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13469",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.43,NA,mm,NA,NA,NA,33,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13501",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.13,NA,mm,NA,NA,NA,1,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13502",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,2,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13503",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.13,NA,mm,NA,NA,NA,3,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13504",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,4,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13505",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.75,NA,mm,NA,NA,NA,5,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13506",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.24,NA,mm,NA,NA,NA,6,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13507",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,7,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13508",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,8,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13509",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.08,NA,mm,NA,NA,NA,9,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13510",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.72,NA,mm,NA,NA,NA,10,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13511",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,11,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13512",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,12,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13513",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,13,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13514",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.65,NA,mm,NA,NA,NA,14,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13515",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,15,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13516",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.02,NA,mm,NA,NA,NA,16,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13517",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.72,NA,mm,NA,NA,NA,17,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13518",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,18,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13519",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.53,NA,mm,NA,NA,NA,19,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13520",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,20,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13521",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3,NA,mm,NA,NA,NA,21,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13522",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,22,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13523",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,23,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13524",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.86,NA,mm,NA,NA,NA,24,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13525",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,25,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13526",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.83,NA,mm,NA,NA,NA,26,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13527",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.84,NA,mm,NA,NA,NA,27,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13528",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,28,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13529",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,29,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13530",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.03,NA,mm,NA,NA,NA,30,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13531",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,31,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13532",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,32,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13570",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.99,NA,mm,NA,NA,NA,1,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13571",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.97,NA,mm,NA,NA,NA,2,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13572",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.94,NA,mm,NA,NA,NA,3,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13573",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,4,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13574",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.96,NA,mm,NA,NA,NA,5,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13575",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.06,NA,mm,NA,NA,NA,6,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13576",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,7,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13577",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.08,NA,mm,NA,NA,NA,8,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13578",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,9,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13579",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.58,NA,mm,NA,NA,NA,10,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13580",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,11,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13581",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,12,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13582",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,13,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13583",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.48,NA,mm,NA,NA,NA,14,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13584",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,15,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13585",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,16,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13586",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,17,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13587",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,18,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13588",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.58,NA,mm,NA,NA,NA,19,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13589",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,20,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13590",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.95,NA,mm,NA,NA,NA,21,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13591",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,22,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13592",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,23,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13593",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,24,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13594",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,25,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13595",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.24,NA,mm,NA,NA,NA,26,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13596",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.61,NA,mm,NA,NA,NA,27,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13597",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,28,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13598",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,29,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13599",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,30,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13600",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,31,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13601",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,32,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13602",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.55,NA,mm,NA,NA,NA,33,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13603",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,34,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13604",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,35,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13605",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,36,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13637",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,1,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13638",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,2,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13639",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,3,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13640",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,4,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13641",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,5,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13642",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,6,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13643",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.98,NA,mm,NA,NA,NA,7,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13644",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.34,NA,mm,NA,NA,NA,8,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13645",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.64,NA,mm,NA,NA,NA,9,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13646",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.09,NA,mm,NA,NA,NA,10,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13647",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.07,NA,mm,NA,NA,NA,11,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13648",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.74,NA,mm,NA,NA,NA,12,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13649",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,13,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13650",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,14,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13651",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.09,NA,mm,NA,NA,NA,15,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13652",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,16,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13653",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,17,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13654",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,18,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13655",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.04,NA,mm,NA,NA,NA,19,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13656",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,20,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13657",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,21,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13658",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,22,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13659",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.03,NA,mm,NA,NA,NA,23,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13660",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.87,NA,mm,NA,NA,NA,24,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13661",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.18,NA,mm,NA,NA,NA,25,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13662",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,26,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13663",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,27,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13664",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.01,NA,mm,NA,NA,NA,28,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13665",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,29,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13666",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,30,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13667",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.95,NA,mm,NA,NA,NA,31,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13705",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.74,NA,mm,NA,NA,NA,1,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13706",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.67,NA,mm,NA,NA,NA,2,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13707",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,3,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13708",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.19,NA,mm,NA,NA,NA,4,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13709",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.86,NA,mm,NA,NA,NA,5,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13710",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,6,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13711",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.78,NA,mm,NA,NA,NA,7,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13712",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,8,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13713",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.24,NA,mm,NA,NA,NA,9,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13714",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,10,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13715",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.61,NA,mm,NA,NA,NA,11,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13716",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.71,NA,mm,NA,NA,NA,12,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13717",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,13,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13718",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.76,NA,mm,NA,NA,NA,14,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13719",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.14,NA,mm,NA,NA,NA,15,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13720",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,16,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13721",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.69,NA,mm,NA,NA,NA,17,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13722",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.75,NA,mm,NA,NA,NA,18,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13723",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,19,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13724",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,20,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13725",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.93,NA,mm,NA,NA,NA,21,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13726",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.83,NA,mm,NA,NA,NA,22,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13727",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.78,NA,mm,NA,NA,NA,23,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13728",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.55,NA,mm,NA,NA,NA,24,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13729",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,25,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13730",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.34,NA,mm,NA,NA,NA,26,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13731",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,27,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13732",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.57,NA,mm,NA,NA,NA,28,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13733",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,29,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13734",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,30,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13735",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,31,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13736",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.94,NA,mm,NA,NA,NA,32,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13737",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,33,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13738",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.57,NA,mm,NA,NA,NA,34,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13739",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,35,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13740",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,36,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13741",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.53,NA,mm,NA,NA,NA,37,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13742",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.77,NA,mm,NA,NA,NA,38,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13777",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,1,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13778",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,2,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13779",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.69,NA,mm,NA,NA,NA,3,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13780",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,4,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13781",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.69,NA,mm,NA,NA,NA,5,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13782",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.55,NA,mm,NA,NA,NA,6,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13783",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,7,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13784",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.98,NA,mm,NA,NA,NA,8,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13785",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,9,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13786",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.62,NA,mm,NA,NA,NA,10,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13787",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.43,NA,mm,NA,NA,NA,11,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13788",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.78,NA,mm,NA,NA,NA,12,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13789",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.87,NA,mm,NA,NA,NA,13,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13790",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,14,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13791",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,15,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13792",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,16,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13793",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.75,NA,mm,NA,NA,NA,17,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13794",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.98,NA,mm,NA,NA,NA,18,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13795",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.61,NA,mm,NA,NA,NA,19,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13796",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,20,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13797",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.43,NA,mm,NA,NA,NA,21,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13798",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,22,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13799",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.53,NA,mm,NA,NA,NA,23,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13800",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,24,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13801",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.93,NA,mm,NA,NA,NA,25,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13802",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.59,NA,mm,NA,NA,NA,26,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13803",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,27,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13804",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,28,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13805",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,29,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13806",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,30,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13807",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.53,NA,mm,NA,NA,NA,31,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13808",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.09,NA,mm,NA,NA,NA,32,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13809",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.53,NA,mm,NA,NA,NA,33,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13810",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,34,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13811",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,35,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13812",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.61,NA,mm,NA,NA,NA,36,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13813",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,37,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13814",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,38,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13815",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,39,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13816",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.82,NA,mm,NA,NA,NA,40,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13852",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,1,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13853",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.9,NA,mm,NA,NA,NA,2,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13854",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,3,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13855",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,4,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13856",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,5,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13857",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,6,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13858",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.55,NA,mm,NA,NA,NA,7,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13859",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,8,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13860",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.89,NA,mm,NA,NA,NA,9,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13861",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.97,NA,mm,NA,NA,NA,10,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13862",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,11,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13863",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.62,NA,mm,NA,NA,NA,12,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13864",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.24,NA,mm,NA,NA,NA,13,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13865",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,14,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13866",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.62,NA,mm,NA,NA,NA,15,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13867",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,16,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13868",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,17,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13869",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,18,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13870",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,19,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13871",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,20,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13872",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.76,NA,mm,NA,NA,NA,21,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13873",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.01,NA,mm,NA,NA,NA,22,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13874",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,23,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13875",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.77,NA,mm,NA,NA,NA,24,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13876",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,25,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13877",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.41,NA,mm,NA,NA,NA,26,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13878",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,27,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13879",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,28,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13880",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.69,NA,mm,NA,NA,NA,29,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13881",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.71,NA,mm,NA,NA,NA,30,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13882",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,31,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13883",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,32,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13884",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,33,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13885",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.41,NA,mm,NA,NA,NA,34,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13886",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,35,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13887",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,36,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13888",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,37,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13889",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,38,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13923",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.88,NA,mm,NA,NA,NA,1,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13924",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,2,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13925",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.9,NA,mm,NA,NA,NA,3,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13962",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,1,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13963",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.85,NA,mm,NA,NA,NA,2,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13964",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.85,NA,mm,NA,NA,NA,3,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13965",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,4,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13966",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,5,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13967",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,6,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13968",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,7,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13969",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,8,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13970",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.18,NA,mm,NA,NA,NA,9,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13971",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.79,NA,mm,NA,NA,NA,10,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13972",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,11,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13973",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,12,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13974",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.53,NA,mm,NA,NA,NA,13,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13975",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.34,NA,mm,NA,NA,NA,14,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13976",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,15,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13977",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,16,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13978",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,17,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13979",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,18,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13980",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,19,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13981",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.82,NA,mm,NA,NA,NA,20,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13982",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.79,NA,mm,NA,NA,NA,21,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13983",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,22,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13984",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,23,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13985",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,24,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13986",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,25,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14007",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.79,NA,mm,NA,NA,NA,1,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14008",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,2,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14009",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,3,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14010",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,4,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14011",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.71,NA,mm,NA,NA,NA,5,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14012",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.04,NA,mm,NA,NA,NA,6,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14013",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.87,NA,mm,NA,NA,NA,7,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14014",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,8,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14015",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.13,NA,mm,NA,NA,NA,9,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14016",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,10,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14017",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,11,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14018",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,12,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14019",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,13,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14020",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,14,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14021",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,15,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14022",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.13,NA,mm,NA,NA,NA,16,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14023",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.94,NA,mm,NA,NA,NA,17,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14024",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,18,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14061",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,1,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14062",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.24,NA,mm,NA,NA,NA,2,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14063",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,3,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14064",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,4,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14065",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,5,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14066",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.68,NA,mm,NA,NA,NA,6,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14067",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,7,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14068",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,8,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14069",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.77,NA,mm,NA,NA,NA,9,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14070",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,10,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14071",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.24,NA,mm,NA,NA,NA,11,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14072",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,12,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14073",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,13,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14074",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,14,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14075",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,15,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14088",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,1,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14089",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.79,NA,mm,NA,NA,NA,2,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14090",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,3,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14091",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,4,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14092",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,5,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus lapidarius,gbif:1340301,body size,thorax length,NA,mean thorax length,NA,species,12,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13087",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.71,NA,mm,NA,NA,NA,1,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13088",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.93,NA,mm,NA,NA,NA,2,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13089",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.94,NA,mm,NA,NA,NA,3,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13090",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.81,NA,mm,NA,NA,NA,4,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13091",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.09,NA,mm,NA,NA,NA,5,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13092",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.36,NA,mm,NA,NA,NA,6,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13093",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.49,NA,mm,NA,NA,NA,7,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13094",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.12,NA,mm,NA,NA,NA,8,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13095",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.23,NA,mm,NA,NA,NA,9,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13096",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.95,NA,mm,NA,NA,NA,10,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13097",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.99,NA,mm,NA,NA,NA,11,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13098",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.05,NA,mm,NA,NA,NA,12,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13099",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.12,NA,mm,NA,NA,NA,13,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13100",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8,NA,mm,NA,NA,NA,14,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13101",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.32,NA,mm,NA,NA,NA,15,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13102",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.35,NA,mm,NA,NA,NA,16,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13103",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.38,NA,mm,NA,NA,NA,17,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13104",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.62,NA,mm,NA,NA,NA,18,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13105",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.17,NA,mm,NA,NA,NA,19,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13106",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,20,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13107",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.27,NA,mm,NA,NA,NA,21,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13108",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.7,NA,mm,NA,NA,NA,22,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13109",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.42,NA,mm,NA,NA,NA,23,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13110",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.27,NA,mm,NA,NA,NA,24,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13111",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.06,NA,mm,NA,NA,NA,25,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13112",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.5,NA,mm,NA,NA,NA,26,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13113",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.74,NA,mm,NA,NA,NA,27,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13114",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.94,NA,mm,NA,NA,NA,28,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13115",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.22,NA,mm,NA,NA,NA,29,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13116",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.22,NA,mm,NA,NA,NA,30,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13117",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.65,NA,mm,NA,NA,NA,31,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13118",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.31,NA,mm,NA,NA,NA,32,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13119",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.67,NA,mm,NA,NA,NA,33,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13120",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.73,NA,mm,NA,NA,NA,34,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13121",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.76,NA,mm,NA,NA,NA,35,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13122",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.78,NA,mm,NA,NA,NA,36,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13123",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.88,NA,mm,NA,NA,NA,37,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13124",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,38,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13160",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.47,NA,mm,NA,NA,NA,1,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13161",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.8,NA,mm,NA,NA,NA,2,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13162",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.7,NA,mm,NA,NA,NA,3,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13163",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.71,NA,mm,NA,NA,NA,4,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13164",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.14,NA,mm,NA,NA,NA,5,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13165",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.84,NA,mm,NA,NA,NA,6,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13166",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.37,NA,mm,NA,NA,NA,7,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13167",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.13,NA,mm,NA,NA,NA,8,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13168",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.38,NA,mm,NA,NA,NA,9,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13169",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.8,NA,mm,NA,NA,NA,10,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13170",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.25,NA,mm,NA,NA,NA,11,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13171",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.03,NA,mm,NA,NA,NA,12,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13172",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.91,NA,mm,NA,NA,NA,13,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13173",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.61,NA,mm,NA,NA,NA,14,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13174",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.19,NA,mm,NA,NA,NA,15,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13175",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.09,NA,mm,NA,NA,NA,16,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13176",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.82,NA,mm,NA,NA,NA,17,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13177",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.67,NA,mm,NA,NA,NA,18,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13178",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.61,NA,mm,NA,NA,NA,19,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13179",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.65,NA,mm,NA,NA,NA,20,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13180",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.46,NA,mm,NA,NA,NA,21,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13181",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.12,NA,mm,NA,NA,NA,22,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13182",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.94,NA,mm,NA,NA,NA,23,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13183",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.33,NA,mm,NA,NA,NA,24,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13184",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.47,NA,mm,NA,NA,NA,25,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13185",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.55,NA,mm,NA,NA,NA,26,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13186",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.16,NA,mm,NA,NA,NA,27,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13187",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,28,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13188",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.72,NA,mm,NA,NA,NA,29,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13189",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.56,NA,mm,NA,NA,NA,30,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13190",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,31,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13191",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.03,NA,mm,NA,NA,NA,32,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13192",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.75,NA,mm,NA,NA,NA,33,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13193",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.6,NA,mm,NA,NA,NA,34,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13194",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.03,NA,mm,NA,NA,NA,35,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13195",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.84,NA,mm,NA,NA,NA,36,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13196",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.23,NA,mm,NA,NA,NA,37,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13235",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.15,NA,mm,NA,NA,NA,1,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13236",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.1,NA,mm,NA,NA,NA,2,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13237",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.81,NA,mm,NA,NA,NA,3,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13238",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.27,NA,mm,NA,NA,NA,4,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13239",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.35,NA,mm,NA,NA,NA,5,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13240",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.25,NA,mm,NA,NA,NA,6,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13241",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.96,NA,mm,NA,NA,NA,7,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13242",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.22,NA,mm,NA,NA,NA,8,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13243",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.42,NA,mm,NA,NA,NA,9,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13244",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.89,NA,mm,NA,NA,NA,10,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13245",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.57,NA,mm,NA,NA,NA,11,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13246",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.85,NA,mm,NA,NA,NA,12,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13247",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.1,NA,mm,NA,NA,NA,13,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13248",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.86,NA,mm,NA,NA,NA,14,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13249",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.84,NA,mm,NA,NA,NA,15,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13250",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.2,NA,mm,NA,NA,NA,16,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13251",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.29,NA,mm,NA,NA,NA,17,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13252",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.44,NA,mm,NA,NA,NA,18,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13253",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.95,NA,mm,NA,NA,NA,19,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13254",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.7,NA,mm,NA,NA,NA,20,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13255",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.7,NA,mm,NA,NA,NA,21,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13256",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.76,NA,mm,NA,NA,NA,22,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13257",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.67,NA,mm,NA,NA,NA,23,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13258",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.29,NA,mm,NA,NA,NA,24,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13259",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.54,NA,mm,NA,NA,NA,25,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13260",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.26,NA,mm,NA,NA,NA,26,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13261",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.73,NA,mm,NA,NA,NA,27,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13262",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.65,NA,mm,NA,NA,NA,28,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13263",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.06,NA,mm,NA,NA,NA,29,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13264",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.93,NA,mm,NA,NA,NA,30,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13265",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.28,NA,mm,NA,NA,NA,31,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13266",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.57,NA,mm,NA,NA,NA,32,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13301",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.5,NA,mm,NA,NA,NA,1,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13302",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.2,NA,mm,NA,NA,NA,2,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13303",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.54,NA,mm,NA,NA,NA,3,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13304",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.84,NA,mm,NA,NA,NA,4,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13305",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.11,NA,mm,NA,NA,NA,5,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13306",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.76,NA,mm,NA,NA,NA,6,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13307",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.68,NA,mm,NA,NA,NA,7,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13308",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.07,NA,mm,NA,NA,NA,8,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13309",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.8,NA,mm,NA,NA,NA,9,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13310",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.65,NA,mm,NA,NA,NA,10,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13311",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.84,NA,mm,NA,NA,NA,11,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13312",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.01,NA,mm,NA,NA,NA,12,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13313",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.38,NA,mm,NA,NA,NA,13,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13314",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.56,NA,mm,NA,NA,NA,14,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13315",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.81,NA,mm,NA,NA,NA,15,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13316",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.65,NA,mm,NA,NA,NA,16,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13317",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.14,NA,mm,NA,NA,NA,17,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13318",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.1,NA,mm,NA,NA,NA,18,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13319",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.33,NA,mm,NA,NA,NA,19,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13320",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.34,NA,mm,NA,NA,NA,20,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13321",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7,NA,mm,NA,NA,NA,21,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13322",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.81,NA,mm,NA,NA,NA,22,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13323",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.26,NA,mm,NA,NA,NA,23,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13324",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.77,NA,mm,NA,NA,NA,24,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13325",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.31,NA,mm,NA,NA,NA,25,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13326",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.51,NA,mm,NA,NA,NA,26,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13327",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.75,NA,mm,NA,NA,NA,27,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13328",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.19,NA,mm,NA,NA,NA,28,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13329",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.24,NA,mm,NA,NA,NA,29,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13330",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.94,NA,mm,NA,NA,NA,30,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13331",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.44,NA,mm,NA,NA,NA,31,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13332",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.26,NA,mm,NA,NA,NA,32,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13368",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.07,NA,mm,NA,NA,NA,1,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13369",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.08,NA,mm,NA,NA,NA,2,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13370",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.91,NA,mm,NA,NA,NA,3,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13371",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.72,NA,mm,NA,NA,NA,4,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13372",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.52,NA,mm,NA,NA,NA,5,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13373",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.37,NA,mm,NA,NA,NA,6,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13374",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.55,NA,mm,NA,NA,NA,7,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13375",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.08,NA,mm,NA,NA,NA,8,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13376",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,9,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13377",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.12,NA,mm,NA,NA,NA,10,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13378",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.06,NA,mm,NA,NA,NA,11,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13379",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.75,NA,mm,NA,NA,NA,12,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13380",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.31,NA,mm,NA,NA,NA,13,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13381",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.64,NA,mm,NA,NA,NA,14,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13382",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.45,NA,mm,NA,NA,NA,15,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13383",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.12,NA,mm,NA,NA,NA,16,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13384",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.12,NA,mm,NA,NA,NA,17,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13385",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.87,NA,mm,NA,NA,NA,18,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13386",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.33,NA,mm,NA,NA,NA,19,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13387",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.05,NA,mm,NA,NA,NA,20,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13388",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.53,NA,mm,NA,NA,NA,21,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13389",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.49,NA,mm,NA,NA,NA,22,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13390",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.89,NA,mm,NA,NA,NA,23,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13391",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.17,NA,mm,NA,NA,NA,24,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13392",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.22,NA,mm,NA,NA,NA,25,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13393",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.73,NA,mm,NA,NA,NA,26,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13394",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.6,NA,mm,NA,NA,NA,27,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13395",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.56,NA,mm,NA,NA,NA,28,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13396",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.94,NA,mm,NA,NA,NA,29,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13397",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.35,NA,mm,NA,NA,NA,30,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13398",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.23,NA,mm,NA,NA,NA,31,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13399",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.29,NA,mm,NA,NA,NA,32,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13400",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.51,NA,mm,NA,NA,NA,33,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13437",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.32,NA,mm,NA,NA,NA,1,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13438",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.63,NA,mm,NA,NA,NA,2,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13439",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.47,NA,mm,NA,NA,NA,3,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13440",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.54,NA,mm,NA,NA,NA,4,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13441",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.92,NA,mm,NA,NA,NA,5,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13442",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.25,NA,mm,NA,NA,NA,6,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13443",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.38,NA,mm,NA,NA,NA,7,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13444",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.53,NA,mm,NA,NA,NA,8,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13445",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.11,NA,mm,NA,NA,NA,9,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13446",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.38,NA,mm,NA,NA,NA,10,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13447",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.82,NA,mm,NA,NA,NA,11,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13448",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.17,NA,mm,NA,NA,NA,12,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13449",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.27,NA,mm,NA,NA,NA,13,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13450",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.69,NA,mm,NA,NA,NA,14,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13451",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.93,NA,mm,NA,NA,NA,15,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13452",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.8,NA,mm,NA,NA,NA,16,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13453",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.34,NA,mm,NA,NA,NA,17,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13454",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,18,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13455",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.77,NA,mm,NA,NA,NA,19,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13456",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.42,NA,mm,NA,NA,NA,20,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13457",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.48,NA,mm,NA,NA,NA,21,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13458",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.18,NA,mm,NA,NA,NA,22,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13459",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.28,NA,mm,NA,NA,NA,23,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13460",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.73,NA,mm,NA,NA,NA,24,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13461",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.06,NA,mm,NA,NA,NA,25,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13462",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.79,NA,mm,NA,NA,NA,26,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13463",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.97,NA,mm,NA,NA,NA,27,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13464",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.62,NA,mm,NA,NA,NA,28,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13465",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.57,NA,mm,NA,NA,NA,29,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13466",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.57,NA,mm,NA,NA,NA,30,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13467",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.74,NA,mm,NA,NA,NA,31,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13468",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.23,NA,mm,NA,NA,NA,32,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13469",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.69,NA,mm,NA,NA,NA,33,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13501",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.76,NA,mm,NA,NA,NA,1,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13502",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.33,NA,mm,NA,NA,NA,2,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13503",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.32,NA,mm,NA,NA,NA,3,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13504",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.65,NA,mm,NA,NA,NA,4,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13505",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.46,NA,mm,NA,NA,NA,5,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13506",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.75,NA,mm,NA,NA,NA,6,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13507",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.63,NA,mm,NA,NA,NA,7,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13508",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.8,NA,mm,NA,NA,NA,8,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13509",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.84,NA,mm,NA,NA,NA,9,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13510",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.48,NA,mm,NA,NA,NA,10,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13511",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.13,NA,mm,NA,NA,NA,11,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13512",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.14,NA,mm,NA,NA,NA,12,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13513",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.05,NA,mm,NA,NA,NA,13,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13514",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.3,NA,mm,NA,NA,NA,14,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13515",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.97,NA,mm,NA,NA,NA,15,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13516",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.45,NA,mm,NA,NA,NA,16,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13517",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.1,NA,mm,NA,NA,NA,17,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13518",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.06,NA,mm,NA,NA,NA,18,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13519",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.82,NA,mm,NA,NA,NA,19,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13520",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.19,NA,mm,NA,NA,NA,20,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13521",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.82,NA,mm,NA,NA,NA,21,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13522",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.48,NA,mm,NA,NA,NA,22,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13523",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.69,NA,mm,NA,NA,NA,23,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13524",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.64,NA,mm,NA,NA,NA,24,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13525",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.22,NA,mm,NA,NA,NA,25,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13526",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.39,NA,mm,NA,NA,NA,26,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13527",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.52,NA,mm,NA,NA,NA,27,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13528",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7,NA,mm,NA,NA,NA,28,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13529",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.29,NA,mm,NA,NA,NA,29,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13530",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.3,NA,mm,NA,NA,NA,30,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13531",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.81,NA,mm,NA,NA,NA,31,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13532",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.73,NA,mm,NA,NA,NA,32,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13570",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.7,NA,mm,NA,NA,NA,1,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13571",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.98,NA,mm,NA,NA,NA,2,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13572",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.88,NA,mm,NA,NA,NA,3,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13573",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.37,NA,mm,NA,NA,NA,4,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13574",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.48,NA,mm,NA,NA,NA,5,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13575",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.49,NA,mm,NA,NA,NA,6,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13576",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.6,NA,mm,NA,NA,NA,7,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13577",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.73,NA,mm,NA,NA,NA,8,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13578",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.14,NA,mm,NA,NA,NA,9,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13579",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.39,NA,mm,NA,NA,NA,10,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13580",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.54,NA,mm,NA,NA,NA,11,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13581",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.42,NA,mm,NA,NA,NA,12,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13582",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.99,NA,mm,NA,NA,NA,13,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13583",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.1,NA,mm,NA,NA,NA,14,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13584",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.9,NA,mm,NA,NA,NA,15,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13585",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.98,NA,mm,NA,NA,NA,16,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13586",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.45,NA,mm,NA,NA,NA,17,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13587",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.93,NA,mm,NA,NA,NA,18,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13588",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.08,NA,mm,NA,NA,NA,19,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13589",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.57,NA,mm,NA,NA,NA,20,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13590",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.17,NA,mm,NA,NA,NA,21,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13591",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.16,NA,mm,NA,NA,NA,22,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13592",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.61,NA,mm,NA,NA,NA,23,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13593",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.64,NA,mm,NA,NA,NA,24,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13594",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.92,NA,mm,NA,NA,NA,25,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13595",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.77,NA,mm,NA,NA,NA,26,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13596",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.18,NA,mm,NA,NA,NA,27,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13597",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.39,NA,mm,NA,NA,NA,28,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13598",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.09,NA,mm,NA,NA,NA,29,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13599",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.07,NA,mm,NA,NA,NA,30,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13600",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.26,NA,mm,NA,NA,NA,31,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13601",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.09,NA,mm,NA,NA,NA,32,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13602",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.02,NA,mm,NA,NA,NA,33,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13603",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.59,NA,mm,NA,NA,NA,34,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13604",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.64,NA,mm,NA,NA,NA,35,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13605",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.1,NA,mm,NA,NA,NA,36,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13637",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.39,NA,mm,NA,NA,NA,1,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13638",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.75,NA,mm,NA,NA,NA,2,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13639",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.18,NA,mm,NA,NA,NA,3,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13640",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.77,NA,mm,NA,NA,NA,4,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13641",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.09,NA,mm,NA,NA,NA,5,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13642",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.16,NA,mm,NA,NA,NA,6,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13643",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7,NA,mm,NA,NA,NA,7,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13644",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.91,NA,mm,NA,NA,NA,8,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13645",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.24,NA,mm,NA,NA,NA,9,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13646",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.98,NA,mm,NA,NA,NA,10,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13647",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.77,NA,mm,NA,NA,NA,11,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13648",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.28,NA,mm,NA,NA,NA,12,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13649",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.78,NA,mm,NA,NA,NA,13,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13650",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.13,NA,mm,NA,NA,NA,14,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13651",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.08,NA,mm,NA,NA,NA,15,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13652",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.97,NA,mm,NA,NA,NA,16,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13653",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.8,NA,mm,NA,NA,NA,17,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13654",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.55,NA,mm,NA,NA,NA,18,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13655",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.2,NA,mm,NA,NA,NA,19,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13656",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.58,NA,mm,NA,NA,NA,20,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13657",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.47,NA,mm,NA,NA,NA,21,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13658",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.98,NA,mm,NA,NA,NA,22,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13659",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.15,NA,mm,NA,NA,NA,23,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13660",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.17,NA,mm,NA,NA,NA,24,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13661",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.12,NA,mm,NA,NA,NA,25,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13662",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.29,NA,mm,NA,NA,NA,26,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13663",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.66,NA,mm,NA,NA,NA,27,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13664",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.3,NA,mm,NA,NA,NA,28,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13665",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.28,NA,mm,NA,NA,NA,29,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13666",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.5,NA,mm,NA,NA,NA,30,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13667",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.82,NA,mm,NA,NA,NA,31,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13705",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.4,NA,mm,NA,NA,NA,1,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13706",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.23,NA,mm,NA,NA,NA,2,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13707",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.48,NA,mm,NA,NA,NA,3,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13708",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.48,NA,mm,NA,NA,NA,4,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13709",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.14,NA,mm,NA,NA,NA,5,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13710",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.44,NA,mm,NA,NA,NA,6,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13711",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.63,NA,mm,NA,NA,NA,7,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13712",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.85,NA,mm,NA,NA,NA,8,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13713",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.42,NA,mm,NA,NA,NA,9,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13714",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.99,NA,mm,NA,NA,NA,10,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13715",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.3,NA,mm,NA,NA,NA,11,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13716",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.89,NA,mm,NA,NA,NA,12,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13717",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.94,NA,mm,NA,NA,NA,13,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13718",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.77,NA,mm,NA,NA,NA,14,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13719",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.61,NA,mm,NA,NA,NA,15,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13720",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.22,NA,mm,NA,NA,NA,16,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13721",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.08,NA,mm,NA,NA,NA,17,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13722",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.03,NA,mm,NA,NA,NA,18,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13723",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.5,NA,mm,NA,NA,NA,19,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13724",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.64,NA,mm,NA,NA,NA,20,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13725",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,21,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13726",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.9,NA,mm,NA,NA,NA,22,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13727",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.33,NA,mm,NA,NA,NA,23,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13728",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8,NA,mm,NA,NA,NA,24,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13729",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.6,NA,mm,NA,NA,NA,25,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13730",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.81,NA,mm,NA,NA,NA,26,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13731",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.56,NA,mm,NA,NA,NA,27,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13732",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.39,NA,mm,NA,NA,NA,28,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13733",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.26,NA,mm,NA,NA,NA,29,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13734",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.82,NA,mm,NA,NA,NA,30,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13735",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.97,NA,mm,NA,NA,NA,31,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13736",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.84,NA,mm,NA,NA,NA,32,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13737",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.59,NA,mm,NA,NA,NA,33,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13738",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.64,NA,mm,NA,NA,NA,34,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13739",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.66,NA,mm,NA,NA,NA,35,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13740",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.1,NA,mm,NA,NA,NA,36,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13741",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.94,NA,mm,NA,NA,NA,37,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13742",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.77,NA,mm,NA,NA,NA,38,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13777",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.76,NA,mm,NA,NA,NA,1,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13778",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.7,NA,mm,NA,NA,NA,2,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13779",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.56,NA,mm,NA,NA,NA,3,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13780",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.1,NA,mm,NA,NA,NA,4,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13781",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.68,NA,mm,NA,NA,NA,5,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13782",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.61,NA,mm,NA,NA,NA,6,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13783",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.32,NA,mm,NA,NA,NA,7,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13784",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.92,NA,mm,NA,NA,NA,8,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13785",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.04,NA,mm,NA,NA,NA,9,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13786",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.68,NA,mm,NA,NA,NA,10,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13787",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.62,NA,mm,NA,NA,NA,11,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13788",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.18,NA,mm,NA,NA,NA,12,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13789",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.28,NA,mm,NA,NA,NA,13,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13790",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.94,NA,mm,NA,NA,NA,14,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13791",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.01,NA,mm,NA,NA,NA,15,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13792",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.27,NA,mm,NA,NA,NA,16,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13793",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.31,NA,mm,NA,NA,NA,17,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13794",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.03,NA,mm,NA,NA,NA,18,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13795",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.15,NA,mm,NA,NA,NA,19,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13796",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.17,NA,mm,NA,NA,NA,20,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13797",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.67,NA,mm,NA,NA,NA,21,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13798",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.4,NA,mm,NA,NA,NA,22,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13799",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.71,NA,mm,NA,NA,NA,23,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13800",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.95,NA,mm,NA,NA,NA,24,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13801",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.91,NA,mm,NA,NA,NA,25,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13802",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.36,NA,mm,NA,NA,NA,26,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13803",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.31,NA,mm,NA,NA,NA,27,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13804",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.31,NA,mm,NA,NA,NA,28,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13805",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.05,NA,mm,NA,NA,NA,29,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13806",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.69,NA,mm,NA,NA,NA,30,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13807",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.25,NA,mm,NA,NA,NA,31,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13808",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.78,NA,mm,NA,NA,NA,32,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13809",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.12,NA,mm,NA,NA,NA,33,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13810",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.96,NA,mm,NA,NA,NA,34,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13811",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.95,NA,mm,NA,NA,NA,35,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13812",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.35,NA,mm,NA,NA,NA,36,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13813",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.25,NA,mm,NA,NA,NA,37,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13814",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.39,NA,mm,NA,NA,NA,38,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13815",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.91,NA,mm,NA,NA,NA,39,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13816",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.99,NA,mm,NA,NA,NA,40,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13852",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.87,NA,mm,NA,NA,NA,1,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13853",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.64,NA,mm,NA,NA,NA,2,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13854",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.38,NA,mm,NA,NA,NA,3,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13855",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.7,NA,mm,NA,NA,NA,4,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13856",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.75,NA,mm,NA,NA,NA,5,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13857",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.86,NA,mm,NA,NA,NA,6,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13858",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.97,NA,mm,NA,NA,NA,7,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13859",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.39,NA,mm,NA,NA,NA,8,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13860",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.23,NA,mm,NA,NA,NA,9,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13861",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.77,NA,mm,NA,NA,NA,10,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13862",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.78,NA,mm,NA,NA,NA,11,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13863",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.32,NA,mm,NA,NA,NA,12,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13864",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.51,NA,mm,NA,NA,NA,13,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13865",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.85,NA,mm,NA,NA,NA,14,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13866",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.4,NA,mm,NA,NA,NA,15,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13867",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.71,NA,mm,NA,NA,NA,16,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13868",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.74,NA,mm,NA,NA,NA,17,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13869",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.69,NA,mm,NA,NA,NA,18,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13870",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.91,NA,mm,NA,NA,NA,19,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13871",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.89,NA,mm,NA,NA,NA,20,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13872",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.03,NA,mm,NA,NA,NA,21,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13873",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.8,NA,mm,NA,NA,NA,22,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13874",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,23,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13875",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.23,NA,mm,NA,NA,NA,24,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13876",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.88,NA,mm,NA,NA,NA,25,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13877",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.32,NA,mm,NA,NA,NA,26,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13878",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.19,NA,mm,NA,NA,NA,27,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13879",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.81,NA,mm,NA,NA,NA,28,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13880",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.67,NA,mm,NA,NA,NA,29,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13881",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.26,NA,mm,NA,NA,NA,30,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13882",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.8,NA,mm,NA,NA,NA,31,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13883",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.82,NA,mm,NA,NA,NA,32,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13884",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.57,NA,mm,NA,NA,NA,33,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13885",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.77,NA,mm,NA,NA,NA,34,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13886",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.73,NA,mm,NA,NA,NA,35,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13887",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.44,NA,mm,NA,NA,NA,36,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13888",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.47,NA,mm,NA,NA,NA,37,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13889",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.9,NA,mm,NA,NA,NA,38,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13923",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.29,NA,mm,NA,NA,NA,1,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13924",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.78,NA,mm,NA,NA,NA,2,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13925",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.82,NA,mm,NA,NA,NA,3,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13962",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.18,NA,mm,NA,NA,NA,1,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13963",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.55,NA,mm,NA,NA,NA,2,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13964",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7,NA,mm,NA,NA,NA,3,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13965",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.97,NA,mm,NA,NA,NA,4,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13966",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.71,NA,mm,NA,NA,NA,5,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13967",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.18,NA,mm,NA,NA,NA,6,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13968",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.87,NA,mm,NA,NA,NA,7,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13969",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.21,NA,mm,NA,NA,NA,8,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13970",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.38,NA,mm,NA,NA,NA,9,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13971",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.04,NA,mm,NA,NA,NA,10,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13972",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.34,NA,mm,NA,NA,NA,11,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13973",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.88,NA,mm,NA,NA,NA,12,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13974",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.62,NA,mm,NA,NA,NA,13,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13975",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.02,NA,mm,NA,NA,NA,14,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13976",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.14,NA,mm,NA,NA,NA,15,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13977",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.35,NA,mm,NA,NA,NA,16,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13978",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.65,NA,mm,NA,NA,NA,17,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13979",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.44,NA,mm,NA,NA,NA,18,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13980",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.28,NA,mm,NA,NA,NA,19,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13981",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.39,NA,mm,NA,NA,NA,20,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13982",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.98,NA,mm,NA,NA,NA,21,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13983",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.07,NA,mm,NA,NA,NA,22,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13984",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.6,NA,mm,NA,NA,NA,23,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13985",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.55,NA,mm,NA,NA,NA,24,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13986",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.45,NA,mm,NA,NA,NA,25,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14007",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.47,NA,mm,NA,NA,NA,1,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14008",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.24,NA,mm,NA,NA,NA,2,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14009",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.18,NA,mm,NA,NA,NA,3,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14010",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.34,NA,mm,NA,NA,NA,4,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14011",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.37,NA,mm,NA,NA,NA,5,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14012",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.32,NA,mm,NA,NA,NA,6,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14013",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.43,NA,mm,NA,NA,NA,7,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14014",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.9,NA,mm,NA,NA,NA,8,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14015",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.23,NA,mm,NA,NA,NA,9,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14016",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.59,NA,mm,NA,NA,NA,10,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14017",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.74,NA,mm,NA,NA,NA,11,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14018",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.61,NA,mm,NA,NA,NA,12,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14019",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.37,NA,mm,NA,NA,NA,13,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14020",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.55,NA,mm,NA,NA,NA,14,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14021",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.36,NA,mm,NA,NA,NA,15,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14022",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.12,NA,mm,NA,NA,NA,16,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14023",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.62,NA,mm,NA,NA,NA,17,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14024",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.4,NA,mm,NA,NA,NA,18,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14061",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.09,NA,mm,NA,NA,NA,1,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14062",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.43,NA,mm,NA,NA,NA,2,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14063",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.91,NA,mm,NA,NA,NA,3,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14064",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.83,NA,mm,NA,NA,NA,4,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14065",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.25,NA,mm,NA,NA,NA,5,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14066",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,6,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14067",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.41,NA,mm,NA,NA,NA,7,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14068",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.18,NA,mm,NA,NA,NA,8,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14069",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.15,NA,mm,NA,NA,NA,9,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14070",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.24,NA,mm,NA,NA,NA,10,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14071",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.88,NA,mm,NA,NA,NA,11,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14072",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.48,NA,mm,NA,NA,NA,12,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14073",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,13,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14074",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.87,NA,mm,NA,NA,NA,14,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14075",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.39,NA,mm,NA,NA,NA,15,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14088",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.93,NA,mm,NA,NA,NA,1,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14089",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.86,NA,mm,NA,NA,NA,2,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14090",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.19,NA,mm,NA,NA,NA,3,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14091",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.99,NA,mm,NA,NA,NA,4,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14092",https://doi.org/10.1111/1365-2656.13051,Bombus lapidarius,gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.31,NA,mm,NA,NA,NA,5,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus lapidarius (Linnaeus 1758),gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,216,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus lapidarius (Linnaeus 1758),gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,216,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus lapidarius (Linnaeus 1758),gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,164,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus lapidarius (LINNAEUS 1758),gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,4.02,mean,mm,70,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Bombus lapidarius (LINNAEUS 1758),gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4.02,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus lapidarius (Linnaeus 1758),gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,7.48,mean,mm,9,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus lapidarius (LINNAEUS 1758),gbif:1340301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,8.12,mean,mm,70,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus lapidarius (Linnaeus, 1758)",gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.43,mean,mm,902,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus lapidarius (Linnaeus, 1758)",gbif:1340301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.65,mean,mm,33,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Austria; France ,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus lucorum,gbif:1340298,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.49,mean,mm,21,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus lucorum,gbif:1340298,body size,thorax length,NA,mean thorax length,NA,species,11,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus lucorum (Linnaeus, 1761)",gbif:1340298,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.77,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus magnus,gbif:4496017,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.3,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus melanopygus,gbif:1340518,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,13,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Bombus melanopygus,gbif:1340518,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.86,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Bombus melanopygus,gbif:1340518,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.85,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Bombus melanopygus,gbif:1340518,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.78,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus melanopygus,gbif:1340518,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5639281,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus mendax,gbif:1340431,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.88,mean,mm,NA,0.2,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus mendax,gbif:1340431,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.04,mean,mm,NA,0.45,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus mesomelas,gbif:1340420,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.8,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus mesomelas,gbif:1340420,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.6,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus mixtus,gbif:1340485,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.298992398,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus monticola,gbif:1340341,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.02,mean,mm,NA,0.3,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus monticola,gbif:1340341,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.8,mean,mm,NA,0.55,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Bombus morio (Swederus, 1787)",gbif: 1340307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.933,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Bombus morio (Swederus, 1787)",gbif: 1340307,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,12.505,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus mucidus,gbif:1340297,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.24,mean,mm,NA,0.09,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus mucidus,gbif:1340297,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.22,mean,mm,NA,0.79,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus muscorum (Linnaeus 1758),gbif:1340286,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.84,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus muscorum (Linnaeus 1758),gbif:1340286,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.84,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus muscorum (Linnaeus 1758),gbif:1340286,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.84,mean,mm,18,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus muscorum (Linnaeus 1758),gbif:1340286,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,7.75,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus nevadensis,gbif:1340439,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,17,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus norvegicus,gbif:1340506,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.45,mean,mm,NA,0.26,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus norvegicus,gbif:1340506,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.83,mean,mm,NA,0.24,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus occidentalis,gbif:1340429,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.908437938,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus pascuorum,gbif:1340405,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,17.65,mean,mm,2,1.65,std error,NA,NA,April and June over three field seasons (2014–2016),NA,queen,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus pascuorum,gbif:1340405,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,12.52,mean,mm,2,0.15,std error,NA,NA,April and June over three field seasons (2014–2016),NA,worker,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus pascuorum,gbif:1340405,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,19.8,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13051",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,corbicula length,NA,NA,NA,single observation,2.93,NA,mm,NA,NA,NA,1,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13051",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.19,NA,mm,NA,NA,NA,1,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13052",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.89,NA,mm,NA,NA,NA,2,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13053",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,3,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13054",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.03,NA,mm,NA,NA,NA,4,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13055",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.44,NA,mm,NA,NA,NA,5,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13056",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,6,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13057",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.58,NA,mm,NA,NA,NA,7,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13058",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.36,NA,mm,NA,NA,NA,8,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13059",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.14,NA,mm,NA,NA,NA,9,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13060",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,10,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13061",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.48,NA,mm,NA,NA,NA,11,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13062",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,12,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13063",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.5,NA,mm,NA,NA,NA,13,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13064",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.62,NA,mm,NA,NA,NA,14,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13065",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.62,NA,mm,NA,NA,NA,15,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13066",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.5,NA,mm,NA,NA,NA,16,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13067",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.61,NA,mm,NA,NA,NA,17,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13068",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,18,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13069",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.39,NA,mm,NA,NA,NA,19,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13070",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,20,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13071",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,21,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13072",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.2,NA,mm,NA,NA,NA,22,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13073",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,23,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13074",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.5,NA,mm,NA,NA,NA,24,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13075",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.12,NA,mm,NA,NA,NA,25,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13076",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.34,NA,mm,NA,NA,NA,26,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13077",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,27,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13078",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,28,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13079",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.56,NA,mm,NA,NA,NA,29,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13080",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.54,NA,mm,NA,NA,NA,30,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13081",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.15,NA,mm,NA,NA,NA,31,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13082",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.04,NA,mm,NA,NA,NA,32,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13083",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12,NA,mm,NA,NA,NA,33,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13084",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,34,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13085",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.2,NA,mm,NA,NA,NA,35,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13086",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.2,NA,mm,NA,NA,NA,36,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13125",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.27,NA,mm,NA,NA,NA,1,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13126",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.67,NA,mm,NA,NA,NA,2,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13127",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.98,NA,mm,NA,NA,NA,3,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13128",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.99,NA,mm,NA,NA,NA,4,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13129",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.35,NA,mm,NA,NA,NA,5,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13130",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.42,NA,mm,NA,NA,NA,6,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13131",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.22,NA,mm,NA,NA,NA,7,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13132",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.7,NA,mm,NA,NA,NA,8,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13133",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.35,NA,mm,NA,NA,NA,9,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13134",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.9,NA,mm,NA,NA,NA,10,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13135",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.51,NA,mm,NA,NA,NA,11,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13136",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.49,NA,mm,NA,NA,NA,12,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13137",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.75,NA,mm,NA,NA,NA,13,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13138",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.91,NA,mm,NA,NA,NA,14,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13139",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.24,NA,mm,NA,NA,NA,15,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13140",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.42,NA,mm,NA,NA,NA,16,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13141",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.82,NA,mm,NA,NA,NA,17,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13142",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.66,NA,mm,NA,NA,NA,18,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13143",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.09,NA,mm,NA,NA,NA,19,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13144",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.1,NA,mm,NA,NA,NA,20,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13145",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.78,NA,mm,NA,NA,NA,21,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13146",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.94,NA,mm,NA,NA,NA,22,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13147",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.25,NA,mm,NA,NA,NA,23,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13148",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.66,NA,mm,NA,NA,NA,24,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13149",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.16,NA,mm,NA,NA,NA,25,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13150",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.09,NA,mm,NA,NA,NA,26,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13151",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.69,NA,mm,NA,NA,NA,27,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13152",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.74,NA,mm,NA,NA,NA,28,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13153",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.51,NA,mm,NA,NA,NA,29,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13154",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.22,NA,mm,NA,NA,NA,30,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13155",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.78,NA,mm,NA,NA,NA,31,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13156",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.83,NA,mm,NA,NA,NA,32,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13157",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.22,NA,mm,NA,NA,NA,33,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13158",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.05,NA,mm,NA,NA,NA,34,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13159",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.98,NA,mm,NA,NA,NA,35,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13197",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.86,NA,mm,NA,NA,NA,1,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13198",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.79,NA,mm,NA,NA,NA,2,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13199",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.12,NA,mm,NA,NA,NA,3,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13200",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.43,NA,mm,NA,NA,NA,4,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13201",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.95,NA,mm,NA,NA,NA,5,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13202",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.96,NA,mm,NA,NA,NA,6,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13203",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.41,NA,mm,NA,NA,NA,7,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13204",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.39,NA,mm,NA,NA,NA,8,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13205",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.31,NA,mm,NA,NA,NA,9,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13206",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.65,NA,mm,NA,NA,NA,10,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13207",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.36,NA,mm,NA,NA,NA,11,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13208",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.05,NA,mm,NA,NA,NA,12,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13209",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.03,NA,mm,NA,NA,NA,13,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13210",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.38,NA,mm,NA,NA,NA,14,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13211",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.04,NA,mm,NA,NA,NA,15,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13212",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.14,NA,mm,NA,NA,NA,16,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13213",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.39,NA,mm,NA,NA,NA,17,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13214",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.55,NA,mm,NA,NA,NA,18,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13215",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.27,NA,mm,NA,NA,NA,19,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13216",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.28,NA,mm,NA,NA,NA,20,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13217",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.66,NA,mm,NA,NA,NA,21,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13218",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.83,NA,mm,NA,NA,NA,22,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13219",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.38,NA,mm,NA,NA,NA,23,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13220",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.83,NA,mm,NA,NA,NA,24,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13221",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.67,NA,mm,NA,NA,NA,25,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13222",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.46,NA,mm,NA,NA,NA,26,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13223",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.98,NA,mm,NA,NA,NA,27,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13224",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.19,NA,mm,NA,NA,NA,28,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13225",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.57,NA,mm,NA,NA,NA,29,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13226",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.22,NA,mm,NA,NA,NA,30,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13227",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.81,NA,mm,NA,NA,NA,31,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13228",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.53,NA,mm,NA,NA,NA,32,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13229",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.06,NA,mm,NA,NA,NA,33,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13230",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.77,NA,mm,NA,NA,NA,34,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13231",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,6.89,NA,mm,NA,NA,NA,35,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13232",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.68,NA,mm,NA,NA,NA,36,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13233",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.94,NA,mm,NA,NA,NA,37,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13234",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.57,NA,mm,NA,NA,NA,38,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13267",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.63,NA,mm,NA,NA,NA,1,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13268",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.12,NA,mm,NA,NA,NA,2,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13269",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.98,NA,mm,NA,NA,NA,3,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13270",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.47,NA,mm,NA,NA,NA,4,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13271",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.16,NA,mm,NA,NA,NA,5,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13272",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.38,NA,mm,NA,NA,NA,6,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13273",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.33,NA,mm,NA,NA,NA,7,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13274",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.05,NA,mm,NA,NA,NA,8,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13275",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.26,NA,mm,NA,NA,NA,9,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13276",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.68,NA,mm,NA,NA,NA,10,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13277",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.68,NA,mm,NA,NA,NA,11,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13278",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.17,NA,mm,NA,NA,NA,12,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13279",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.84,NA,mm,NA,NA,NA,13,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13280",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.97,NA,mm,NA,NA,NA,14,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13281",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.5,NA,mm,NA,NA,NA,15,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13282",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.97,NA,mm,NA,NA,NA,16,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13283",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.04,NA,mm,NA,NA,NA,17,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13284",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10,NA,mm,NA,NA,NA,18,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13285",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.4,NA,mm,NA,NA,NA,19,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13286",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.13,NA,mm,NA,NA,NA,20,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13287",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.88,NA,mm,NA,NA,NA,21,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13288",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.21,NA,mm,NA,NA,NA,22,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13289",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.03,NA,mm,NA,NA,NA,23,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13290",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.74,NA,mm,NA,NA,NA,24,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13291",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.61,NA,mm,NA,NA,NA,25,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13292",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.62,NA,mm,NA,NA,NA,26,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13293",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.44,NA,mm,NA,NA,NA,27,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13294",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.68,NA,mm,NA,NA,NA,28,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13295",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.21,NA,mm,NA,NA,NA,29,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13296",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.62,NA,mm,NA,NA,NA,30,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13297",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,31,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13298",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.61,NA,mm,NA,NA,NA,32,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13299",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.14,NA,mm,NA,NA,NA,33,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13300",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.56,NA,mm,NA,NA,NA,34,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13333",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.19,NA,mm,NA,NA,NA,1,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13334",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.05,NA,mm,NA,NA,NA,2,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13335",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.53,NA,mm,NA,NA,NA,3,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13336",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.21,NA,mm,NA,NA,NA,4,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13337",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.1,NA,mm,NA,NA,NA,5,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13338",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.57,NA,mm,NA,NA,NA,6,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13339",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.85,NA,mm,NA,NA,NA,7,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13340",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.46,NA,mm,NA,NA,NA,8,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13341",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.57,NA,mm,NA,NA,NA,9,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13342",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.16,NA,mm,NA,NA,NA,10,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13343",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.83,NA,mm,NA,NA,NA,11,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13344",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.31,NA,mm,NA,NA,NA,12,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13345",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.86,NA,mm,NA,NA,NA,13,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13346",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.59,NA,mm,NA,NA,NA,14,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13347",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,15,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13348",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.4,NA,mm,NA,NA,NA,16,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13349",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.75,NA,mm,NA,NA,NA,17,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13350",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.61,NA,mm,NA,NA,NA,18,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13351",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.75,NA,mm,NA,NA,NA,19,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13352",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.01,NA,mm,NA,NA,NA,20,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13353",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.32,NA,mm,NA,NA,NA,21,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13354",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.09,NA,mm,NA,NA,NA,22,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13355",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.58,NA,mm,NA,NA,NA,23,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13356",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.81,NA,mm,NA,NA,NA,24,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13357",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.64,NA,mm,NA,NA,NA,25,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13358",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.72,NA,mm,NA,NA,NA,26,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13359",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.25,NA,mm,NA,NA,NA,27,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13360",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.06,NA,mm,NA,NA,NA,28,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13361",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.73,NA,mm,NA,NA,NA,29,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13362",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.07,NA,mm,NA,NA,NA,30,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13363",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.37,NA,mm,NA,NA,NA,31,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13364",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.68,NA,mm,NA,NA,NA,32,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13365",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,33,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13366",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.67,NA,mm,NA,NA,NA,34,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13367",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.19,NA,mm,NA,NA,NA,35,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13401",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.92,NA,mm,NA,NA,NA,1,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13402",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.26,NA,mm,NA,NA,NA,2,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13403",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.1,NA,mm,NA,NA,NA,3,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13404",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.44,NA,mm,NA,NA,NA,4,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13405",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.21,NA,mm,NA,NA,NA,5,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13406",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.83,NA,mm,NA,NA,NA,6,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13407",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.3,NA,mm,NA,NA,NA,7,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13408",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.92,NA,mm,NA,NA,NA,8,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13409",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.89,NA,mm,NA,NA,NA,9,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13410",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.41,NA,mm,NA,NA,NA,10,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13411",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.64,NA,mm,NA,NA,NA,11,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13412",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.22,NA,mm,NA,NA,NA,12,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13413",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.4,NA,mm,NA,NA,NA,13,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13414",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.21,NA,mm,NA,NA,NA,14,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13415",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.74,NA,mm,NA,NA,NA,15,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13416",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.63,NA,mm,NA,NA,NA,16,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13417",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.05,NA,mm,NA,NA,NA,17,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13418",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.07,NA,mm,NA,NA,NA,18,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13419",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.47,NA,mm,NA,NA,NA,19,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13420",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.12,NA,mm,NA,NA,NA,20,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13421",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.11,NA,mm,NA,NA,NA,21,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13422",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.95,NA,mm,NA,NA,NA,22,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13423",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.35,NA,mm,NA,NA,NA,23,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13424",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.39,NA,mm,NA,NA,NA,24,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13425",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.48,NA,mm,NA,NA,NA,25,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13426",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.69,NA,mm,NA,NA,NA,26,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13427",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.35,NA,mm,NA,NA,NA,27,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13428",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.14,NA,mm,NA,NA,NA,28,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13429",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.76,NA,mm,NA,NA,NA,29,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13430",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.93,NA,mm,NA,NA,NA,30,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13431",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.86,NA,mm,NA,NA,NA,31,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13432",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.8,NA,mm,NA,NA,NA,32,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13433",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.46,NA,mm,NA,NA,NA,33,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13434",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.97,NA,mm,NA,NA,NA,34,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13435",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.37,NA,mm,NA,NA,NA,35,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13436",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.12,NA,mm,NA,NA,NA,36,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13470",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.89,NA,mm,NA,NA,NA,1,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13471",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.43,NA,mm,NA,NA,NA,2,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13472",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.22,NA,mm,NA,NA,NA,3,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13473",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.6,NA,mm,NA,NA,NA,4,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13474",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.5,NA,mm,NA,NA,NA,5,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13475",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.81,NA,mm,NA,NA,NA,6,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13476",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.96,NA,mm,NA,NA,NA,7,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13477",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.22,NA,mm,NA,NA,NA,8,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13478",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.54,NA,mm,NA,NA,NA,9,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13479",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.2,NA,mm,NA,NA,NA,10,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13480",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.68,NA,mm,NA,NA,NA,11,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13481",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.8,NA,mm,NA,NA,NA,12,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13482",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.34,NA,mm,NA,NA,NA,13,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13483",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8,NA,mm,NA,NA,NA,14,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13484",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.71,NA,mm,NA,NA,NA,15,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13485",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.61,NA,mm,NA,NA,NA,16,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13486",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.67,NA,mm,NA,NA,NA,17,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13487",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.57,NA,mm,NA,NA,NA,18,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13488",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.56,NA,mm,NA,NA,NA,19,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13489",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.23,NA,mm,NA,NA,NA,20,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13490",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.86,NA,mm,NA,NA,NA,21,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13491",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.57,NA,mm,NA,NA,NA,22,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13492",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.56,NA,mm,NA,NA,NA,23,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13493",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.92,NA,mm,NA,NA,NA,24,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13494",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.22,NA,mm,NA,NA,NA,25,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13495",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.78,NA,mm,NA,NA,NA,26,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13496",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.14,NA,mm,NA,NA,NA,27,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13497",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.87,NA,mm,NA,NA,NA,28,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13498",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.89,NA,mm,NA,NA,NA,29,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13499",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.66,NA,mm,NA,NA,NA,30,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13500",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.06,NA,mm,NA,NA,NA,31,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13533",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.65,NA,mm,NA,NA,NA,1,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13534",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.75,NA,mm,NA,NA,NA,2,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13535",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.45,NA,mm,NA,NA,NA,3,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13536",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.64,NA,mm,NA,NA,NA,4,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13537",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.99,NA,mm,NA,NA,NA,5,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13538",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.72,NA,mm,NA,NA,NA,6,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13539",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.36,NA,mm,NA,NA,NA,7,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13540",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.17,NA,mm,NA,NA,NA,8,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13541",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.22,NA,mm,NA,NA,NA,9,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13542",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.22,NA,mm,NA,NA,NA,10,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13543",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.11,NA,mm,NA,NA,NA,11,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13544",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.97,NA,mm,NA,NA,NA,12,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13545",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.06,NA,mm,NA,NA,NA,13,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13546",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.45,NA,mm,NA,NA,NA,14,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13547",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,15,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13548",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.09,NA,mm,NA,NA,NA,16,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13549",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.23,NA,mm,NA,NA,NA,17,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13550",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.29,NA,mm,NA,NA,NA,18,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13551",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.5,NA,mm,NA,NA,NA,19,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13552",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.53,NA,mm,NA,NA,NA,20,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13553",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.94,NA,mm,NA,NA,NA,21,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13554",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.3,NA,mm,NA,NA,NA,22,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13555",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.9,NA,mm,NA,NA,NA,23,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13556",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.69,NA,mm,NA,NA,NA,24,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13557",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.57,NA,mm,NA,NA,NA,25,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13558",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.81,NA,mm,NA,NA,NA,26,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13559",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.1,NA,mm,NA,NA,NA,27,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13560",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.02,NA,mm,NA,NA,NA,28,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13561",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.14,NA,mm,NA,NA,NA,29,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13562",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.64,NA,mm,NA,NA,NA,30,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13563",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.37,NA,mm,NA,NA,NA,31,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13564",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.96,NA,mm,NA,NA,NA,32,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13565",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.57,NA,mm,NA,NA,NA,33,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13566",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.92,NA,mm,NA,NA,NA,34,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13567",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.29,NA,mm,NA,NA,NA,35,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13568",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.84,NA,mm,NA,NA,NA,36,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13569",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.41,NA,mm,NA,NA,NA,37,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13606",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.73,NA,mm,NA,NA,NA,1,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13607",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.18,NA,mm,NA,NA,NA,2,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13608",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.23,NA,mm,NA,NA,NA,3,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13609",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.34,NA,mm,NA,NA,NA,4,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13610",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.3,NA,mm,NA,NA,NA,5,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13611",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.18,NA,mm,NA,NA,NA,6,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13612",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.33,NA,mm,NA,NA,NA,7,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13613",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.56,NA,mm,NA,NA,NA,8,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13614",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.35,NA,mm,NA,NA,NA,9,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13615",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.85,NA,mm,NA,NA,NA,10,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13616",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.98,NA,mm,NA,NA,NA,11,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13617",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.23,NA,mm,NA,NA,NA,12,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13618",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.38,NA,mm,NA,NA,NA,13,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13619",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.23,NA,mm,NA,NA,NA,14,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13620",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.42,NA,mm,NA,NA,NA,15,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13621",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.23,NA,mm,NA,NA,NA,16,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13622",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.28,NA,mm,NA,NA,NA,17,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13623",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.72,NA,mm,NA,NA,NA,18,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13624",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.44,NA,mm,NA,NA,NA,19,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13625",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.16,NA,mm,NA,NA,NA,20,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13626",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.41,NA,mm,NA,NA,NA,21,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13627",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.06,NA,mm,NA,NA,NA,22,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13628",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.29,NA,mm,NA,NA,NA,23,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13629",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.32,NA,mm,NA,NA,NA,24,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13630",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.55,NA,mm,NA,NA,NA,25,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13631",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.02,NA,mm,NA,NA,NA,26,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13632",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.13,NA,mm,NA,NA,NA,27,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13633",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.56,NA,mm,NA,NA,NA,28,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13634",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.32,NA,mm,NA,NA,NA,29,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13635",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.49,NA,mm,NA,NA,NA,30,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13636",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.7,NA,mm,NA,NA,NA,31,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13668",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.6,NA,mm,NA,NA,NA,1,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13669",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,2,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13670",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.39,NA,mm,NA,NA,NA,3,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13671",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.74,NA,mm,NA,NA,NA,4,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13672",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.81,NA,mm,NA,NA,NA,5,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13673",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.22,NA,mm,NA,NA,NA,6,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13674",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.29,NA,mm,NA,NA,NA,7,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13675",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.88,NA,mm,NA,NA,NA,8,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13676",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.07,NA,mm,NA,NA,NA,9,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13677",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.36,NA,mm,NA,NA,NA,10,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13678",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.65,NA,mm,NA,NA,NA,11,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13679",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.92,NA,mm,NA,NA,NA,12,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13680",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.29,NA,mm,NA,NA,NA,13,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13681",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.15,NA,mm,NA,NA,NA,14,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13682",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.78,NA,mm,NA,NA,NA,15,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13683",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.6,NA,mm,NA,NA,NA,16,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13684",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.36,NA,mm,NA,NA,NA,17,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13685",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.6,NA,mm,NA,NA,NA,18,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13686",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.16,NA,mm,NA,NA,NA,19,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13687",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.83,NA,mm,NA,NA,NA,20,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13688",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.06,NA,mm,NA,NA,NA,21,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13689",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.7,NA,mm,NA,NA,NA,22,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13690",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.47,NA,mm,NA,NA,NA,23,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13691",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.03,NA,mm,NA,NA,NA,24,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13692",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.55,NA,mm,NA,NA,NA,25,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13693",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.92,NA,mm,NA,NA,NA,26,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13694",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.79,NA,mm,NA,NA,NA,27,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13695",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.68,NA,mm,NA,NA,NA,28,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13696",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.84,NA,mm,NA,NA,NA,29,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13697",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.09,NA,mm,NA,NA,NA,30,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13698",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.65,NA,mm,NA,NA,NA,31,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13699",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.34,NA,mm,NA,NA,NA,32,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13700",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.36,NA,mm,NA,NA,NA,33,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13701",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.26,NA,mm,NA,NA,NA,34,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13702",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.73,NA,mm,NA,NA,NA,35,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13703",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.09,NA,mm,NA,NA,NA,36,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13704",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.67,NA,mm,NA,NA,NA,37,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13743",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.53,NA,mm,NA,NA,NA,1,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13744",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.24,NA,mm,NA,NA,NA,2,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13745",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.27,NA,mm,NA,NA,NA,3,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13746",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.95,NA,mm,NA,NA,NA,4,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13747",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.66,NA,mm,NA,NA,NA,5,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13748",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.91,NA,mm,NA,NA,NA,6,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13749",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.35,NA,mm,NA,NA,NA,7,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13750",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.15,NA,mm,NA,NA,NA,8,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13751",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.11,NA,mm,NA,NA,NA,9,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13752",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.41,NA,mm,NA,NA,NA,10,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13753",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.35,NA,mm,NA,NA,NA,11,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13754",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10,NA,mm,NA,NA,NA,12,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13755",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.08,NA,mm,NA,NA,NA,13,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13756",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.12,NA,mm,NA,NA,NA,14,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13757",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.52,NA,mm,NA,NA,NA,15,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13758",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.91,NA,mm,NA,NA,NA,16,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13759",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.5,NA,mm,NA,NA,NA,17,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13760",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.51,NA,mm,NA,NA,NA,18,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13761",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.21,NA,mm,NA,NA,NA,19,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13762",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.81,NA,mm,NA,NA,NA,20,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13763",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.92,NA,mm,NA,NA,NA,21,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13764",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,22,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13765",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.97,NA,mm,NA,NA,NA,23,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13766",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.94,NA,mm,NA,NA,NA,24,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13767",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.44,NA,mm,NA,NA,NA,25,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13768",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.44,NA,mm,NA,NA,NA,26,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13769",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,27,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13770",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.69,NA,mm,NA,NA,NA,28,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13771",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.66,NA,mm,NA,NA,NA,29,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13772",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.09,NA,mm,NA,NA,NA,30,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13773",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.81,NA,mm,NA,NA,NA,31,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13774",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.34,NA,mm,NA,NA,NA,32,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13775",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.89,NA,mm,NA,NA,NA,33,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13776",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.13,NA,mm,NA,NA,NA,34,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13817",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.91,NA,mm,NA,NA,NA,1,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13818",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.7,NA,mm,NA,NA,NA,2,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13819",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.07,NA,mm,NA,NA,NA,3,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13820",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.41,NA,mm,NA,NA,NA,4,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13821",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.86,NA,mm,NA,NA,NA,5,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13822",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.14,NA,mm,NA,NA,NA,6,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13823",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.39,NA,mm,NA,NA,NA,7,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13824",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.2,NA,mm,NA,NA,NA,8,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13825",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.51,NA,mm,NA,NA,NA,9,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13826",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.22,NA,mm,NA,NA,NA,10,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13827",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.74,NA,mm,NA,NA,NA,11,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13828",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.95,NA,mm,NA,NA,NA,12,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13829",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.82,NA,mm,NA,NA,NA,13,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13830",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,14,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13831",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.54,NA,mm,NA,NA,NA,15,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13832",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.1,NA,mm,NA,NA,NA,16,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13833",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.21,NA,mm,NA,NA,NA,17,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13834",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,18,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13835",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.94,NA,mm,NA,NA,NA,19,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13836",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.91,NA,mm,NA,NA,NA,20,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13837",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.68,NA,mm,NA,NA,NA,21,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13838",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.38,NA,mm,NA,NA,NA,22,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13839",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.42,NA,mm,NA,NA,NA,23,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13840",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.21,NA,mm,NA,NA,NA,24,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13841",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.93,NA,mm,NA,NA,NA,25,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13842",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.58,NA,mm,NA,NA,NA,26,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13843",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.26,NA,mm,NA,NA,NA,27,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13844",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.5,NA,mm,NA,NA,NA,28,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13845",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.91,NA,mm,NA,NA,NA,29,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13846",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.98,NA,mm,NA,NA,NA,30,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13847",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.9,NA,mm,NA,NA,NA,31,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13848",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.2,NA,mm,NA,NA,NA,32,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13849",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.9,NA,mm,NA,NA,NA,33,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13850",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.54,NA,mm,NA,NA,NA,34,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13851",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.88,NA,mm,NA,NA,NA,35,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13890",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.88,NA,mm,NA,NA,NA,1,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13891",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.36,NA,mm,NA,NA,NA,2,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13892",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.83,NA,mm,NA,NA,NA,3,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13893",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.46,NA,mm,NA,NA,NA,4,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13894",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.32,NA,mm,NA,NA,NA,5,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13895",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.3,NA,mm,NA,NA,NA,6,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13896",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.86,NA,mm,NA,NA,NA,7,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13897",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.53,NA,mm,NA,NA,NA,8,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13898",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.41,NA,mm,NA,NA,NA,9,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13899",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.19,NA,mm,NA,NA,NA,10,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13900",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.76,NA,mm,NA,NA,NA,11,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13901",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.89,NA,mm,NA,NA,NA,12,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13902",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.48,NA,mm,NA,NA,NA,13,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13903",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.13,NA,mm,NA,NA,NA,14,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13904",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.59,NA,mm,NA,NA,NA,15,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13905",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.62,NA,mm,NA,NA,NA,16,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13906",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.15,NA,mm,NA,NA,NA,17,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13907",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.64,NA,mm,NA,NA,NA,18,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13908",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.24,NA,mm,NA,NA,NA,19,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13909",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.3,NA,mm,NA,NA,NA,20,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13910",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.61,NA,mm,NA,NA,NA,21,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13911",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.96,NA,mm,NA,NA,NA,22,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13912",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.72,NA,mm,NA,NA,NA,23,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13913",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.69,NA,mm,NA,NA,NA,24,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13914",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.41,NA,mm,NA,NA,NA,25,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13915",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.05,NA,mm,NA,NA,NA,26,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13916",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.09,NA,mm,NA,NA,NA,27,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13917",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.19,NA,mm,NA,NA,NA,28,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13918",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.49,NA,mm,NA,NA,NA,29,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13919",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.01,NA,mm,NA,NA,NA,30,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13920",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.92,NA,mm,NA,NA,NA,31,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13921",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.74,NA,mm,NA,NA,NA,32,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13922",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.46,NA,mm,NA,NA,NA,33,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13926",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.51,NA,mm,NA,NA,NA,1,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13927",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.08,NA,mm,NA,NA,NA,2,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13928",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.11,NA,mm,NA,NA,NA,3,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13929",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.44,NA,mm,NA,NA,NA,4,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13930",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.47,NA,mm,NA,NA,NA,5,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13931",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.98,NA,mm,NA,NA,NA,6,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13932",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,7.66,NA,mm,NA,NA,NA,7,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13933",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10,NA,mm,NA,NA,NA,8,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13934",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.73,NA,mm,NA,NA,NA,9,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13935",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.11,NA,mm,NA,NA,NA,10,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13936",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.06,NA,mm,NA,NA,NA,11,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13937",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.9,NA,mm,NA,NA,NA,12,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13938",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.24,NA,mm,NA,NA,NA,13,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13939",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.22,NA,mm,NA,NA,NA,14,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13940",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.05,NA,mm,NA,NA,NA,15,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13941",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.98,NA,mm,NA,NA,NA,16,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13942",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.96,NA,mm,NA,NA,NA,17,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13943",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.81,NA,mm,NA,NA,NA,18,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13944",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.58,NA,mm,NA,NA,NA,19,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13945",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.64,NA,mm,NA,NA,NA,20,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13946",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.78,NA,mm,NA,NA,NA,21,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13947",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.82,NA,mm,NA,NA,NA,22,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13948",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.6,NA,mm,NA,NA,NA,23,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13949",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.8,NA,mm,NA,NA,NA,24,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13950",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.96,NA,mm,NA,NA,NA,25,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13951",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.28,NA,mm,NA,NA,NA,26,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13952",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.1,NA,mm,NA,NA,NA,27,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13953",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.76,NA,mm,NA,NA,NA,28,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13954",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.47,NA,mm,NA,NA,NA,29,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13955",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.86,NA,mm,NA,NA,NA,30,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13956",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.52,NA,mm,NA,NA,NA,31,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13957",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.06,NA,mm,NA,NA,NA,32,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13958",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.11,NA,mm,NA,NA,NA,33,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13959",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.03,NA,mm,NA,NA,NA,34,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13960",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.15,NA,mm,NA,NA,NA,35,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13961",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.68,NA,mm,NA,NA,NA,36,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13987",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.76,NA,mm,NA,NA,NA,1,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13988",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.21,NA,mm,NA,NA,NA,2,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13989",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.93,NA,mm,NA,NA,NA,3,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13990",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.5,NA,mm,NA,NA,NA,4,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13991",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.05,NA,mm,NA,NA,NA,5,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13992",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.31,NA,mm,NA,NA,NA,6,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13993",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.95,NA,mm,NA,NA,NA,7,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13994",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.76,NA,mm,NA,NA,NA,8,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13995",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.54,NA,mm,NA,NA,NA,9,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13996",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.59,NA,mm,NA,NA,NA,10,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13997",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.07,NA,mm,NA,NA,NA,11,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13998",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.28,NA,mm,NA,NA,NA,12,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13999",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.85,NA,mm,NA,NA,NA,13,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14000",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.62,NA,mm,NA,NA,NA,14,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14001",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.06,NA,mm,NA,NA,NA,15,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14002",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.92,NA,mm,NA,NA,NA,16,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14003",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.45,NA,mm,NA,NA,NA,17,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14004",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.54,NA,mm,NA,NA,NA,18,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14005",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.89,NA,mm,NA,NA,NA,19,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14006",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.96,NA,mm,NA,NA,NA,20,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14025",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.3,NA,mm,NA,NA,NA,1,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14026",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.62,NA,mm,NA,NA,NA,2,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14027",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.91,NA,mm,NA,NA,NA,3,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14028",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.48,NA,mm,NA,NA,NA,4,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14029",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.78,NA,mm,NA,NA,NA,5,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14030",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.62,NA,mm,NA,NA,NA,6,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14031",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.41,NA,mm,NA,NA,NA,7,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14032",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.37,NA,mm,NA,NA,NA,8,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14033",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.12,NA,mm,NA,NA,NA,9,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14034",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.81,NA,mm,NA,NA,NA,10,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14035",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9,NA,mm,NA,NA,NA,11,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14036",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.45,NA,mm,NA,NA,NA,12,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14037",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.64,NA,mm,NA,NA,NA,13,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14038",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.29,NA,mm,NA,NA,NA,14,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14039",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.91,NA,mm,NA,NA,NA,15,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14040",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.37,NA,mm,NA,NA,NA,16,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14041",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.7,NA,mm,NA,NA,NA,17,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14042",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.37,NA,mm,NA,NA,NA,18,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14043",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.68,NA,mm,NA,NA,NA,19,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14044",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.2,NA,mm,NA,NA,NA,20,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14045",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.45,NA,mm,NA,NA,NA,21,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14046",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.51,NA,mm,NA,NA,NA,22,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14047",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.8,NA,mm,NA,NA,NA,23,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14048",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.08,NA,mm,NA,NA,NA,24,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14049",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.47,NA,mm,NA,NA,NA,25,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14050",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.58,NA,mm,NA,NA,NA,26,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14051",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.83,NA,mm,NA,NA,NA,27,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14052",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.03,NA,mm,NA,NA,NA,28,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14053",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.34,NA,mm,NA,NA,NA,29,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14054",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.33,NA,mm,NA,NA,NA,30,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14055",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.19,NA,mm,NA,NA,NA,31,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14056",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.2,NA,mm,NA,NA,NA,32,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14057",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.78,NA,mm,NA,NA,NA,33,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14058",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.05,NA,mm,NA,NA,NA,34,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14059",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.49,NA,mm,NA,NA,NA,35,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14060",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.24,NA,mm,NA,NA,NA,36,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14076",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.76,NA,mm,NA,NA,NA,1,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14077",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.75,NA,mm,NA,NA,NA,2,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14078",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,9.63,NA,mm,NA,NA,NA,3,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14079",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,8.81,NA,mm,NA,NA,NA,4,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14080",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.89,NA,mm,NA,NA,NA,5,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14081",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.39,NA,mm,NA,NA,NA,6,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14082",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.33,NA,mm,NA,NA,NA,7,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14083",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11,NA,mm,NA,NA,NA,8,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14084",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.21,NA,mm,NA,NA,NA,9,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14085",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,10.6,NA,mm,NA,NA,NA,10,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14086",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,11.49,NA,mm,NA,NA,NA,11,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14087",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,We measured winglength as the distance from the tegula to the distal end of the radial cell through the mu_c vein.,NA,single observation,12.11,NA,mm,NA,NA,NA,12,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13052",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,2,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13053",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,3,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13054",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.89,NA,mm,NA,NA,NA,4,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13055",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.2,NA,mm,NA,NA,NA,5,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13056",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.9,NA,mm,NA,NA,NA,6,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13057",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.47,NA,mm,NA,NA,NA,7,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13058",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.18,NA,mm,NA,NA,NA,8,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13059",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.11,NA,mm,NA,NA,NA,9,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13060",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,10,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13061",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,11,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13062",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.97,NA,mm,NA,NA,NA,12,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13063",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,13,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13064",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.06,NA,mm,NA,NA,NA,14,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13065",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.91,NA,mm,NA,NA,NA,15,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13066",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,16,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13067",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,17,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13068",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.91,NA,mm,NA,NA,NA,18,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13069",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.74,NA,mm,NA,NA,NA,19,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13070",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,20,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13071",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,21,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13072",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,22,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13073",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,23,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13074",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,24,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13075",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,25,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13076",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.18,NA,mm,NA,NA,NA,26,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13077",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,27,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13078",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,28,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13079",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,29,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13080",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.93,NA,mm,NA,NA,NA,30,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13081",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,31,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13082",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.46,NA,mm,NA,NA,NA,32,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13083",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,33,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13084",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.56,NA,mm,NA,NA,NA,34,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13085",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,35,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13086",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,36,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13125",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,1,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13126",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.66,NA,mm,NA,NA,NA,2,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13127",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,3,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13128",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.92,NA,mm,NA,NA,NA,4,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13129",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,5,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13130",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,6,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13131",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,7,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13132",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.12,NA,mm,NA,NA,NA,8,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13133",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,9,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13134",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,10,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13135",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,11,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13136",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,12,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13137",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.04,NA,mm,NA,NA,NA,13,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13138",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.77,NA,mm,NA,NA,NA,14,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13139",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,15,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13140",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.86,NA,mm,NA,NA,NA,16,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13141",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.73,NA,mm,NA,NA,NA,17,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13142",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.13,NA,mm,NA,NA,NA,18,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13143",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.92,NA,mm,NA,NA,NA,19,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13144",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,20,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13145",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.32,NA,mm,NA,NA,NA,21,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13146",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.62,NA,mm,NA,NA,NA,22,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13147",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.8,NA,mm,NA,NA,NA,23,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13148",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.08,NA,mm,NA,NA,NA,24,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13149",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,25,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13150",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,26,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13151",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.84,NA,mm,NA,NA,NA,27,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13152",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.9,NA,mm,NA,NA,NA,28,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13153",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,29,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13154",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.55,NA,mm,NA,NA,NA,30,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13155",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,31,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13156",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,32,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13157",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.69,NA,mm,NA,NA,NA,33,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13158",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,34,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13159",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.29,NA,mm,NA,NA,NA,35,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13197",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,1,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13198",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,2,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13199",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.86,NA,mm,NA,NA,NA,3,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13200",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,4,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13201",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,5,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13202",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.86,NA,mm,NA,NA,NA,6,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13203",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,7,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13204",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.15,NA,mm,NA,NA,NA,8,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13205",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,9,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13206",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.55,NA,mm,NA,NA,NA,10,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13207",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,11,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13208",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.96,NA,mm,NA,NA,NA,12,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13209",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,13,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13210",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,14,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13211",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.59,NA,mm,NA,NA,NA,15,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13212",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,16,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13213",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,17,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13214",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.31,NA,mm,NA,NA,NA,18,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13215",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,19,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13216",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,20,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13217",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,21,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13218",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,22,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13219",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,23,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13220",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.81,NA,mm,NA,NA,NA,24,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13221",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.47,NA,mm,NA,NA,NA,25,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13222",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,26,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13223",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,27,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13224",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.04,NA,mm,NA,NA,NA,28,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13225",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.18,NA,mm,NA,NA,NA,29,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13226",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.01,NA,mm,NA,NA,NA,30,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13227",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,31,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13228",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.84,NA,mm,NA,NA,NA,32,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13229",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.74,NA,mm,NA,NA,NA,33,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13230",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,34,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13231",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.1,NA,mm,NA,NA,NA,35,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13232",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.47,NA,mm,NA,NA,NA,36,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13233",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.46,NA,mm,NA,NA,NA,37,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13234",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.84,NA,mm,NA,NA,NA,38,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13267",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.28,NA,mm,NA,NA,NA,1,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13268",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,2,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13269",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,3,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13270",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3,NA,mm,NA,NA,NA,4,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13271",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,5,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13272",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,6,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13273",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.03,NA,mm,NA,NA,NA,7,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13274",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.49,NA,mm,NA,NA,NA,8,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13275",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,9,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13276",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,10,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13277",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,11,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13278",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,12,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13279",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,13,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13280",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.75,NA,mm,NA,NA,NA,14,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13281",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.86,NA,mm,NA,NA,NA,15,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13282",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.65,NA,mm,NA,NA,NA,16,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13283",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.23,NA,mm,NA,NA,NA,17,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13284",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,18,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13285",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,19,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13286",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.07,NA,mm,NA,NA,NA,20,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13287",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,21,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13288",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,22,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13289",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,23,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13290",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,24,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13291",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.71,NA,mm,NA,NA,NA,25,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13292",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.56,NA,mm,NA,NA,NA,26,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13293",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.06,NA,mm,NA,NA,NA,27,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13294",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,28,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13295",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,29,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13296",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.93,NA,mm,NA,NA,NA,30,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13297",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,31,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13298",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,32,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13299",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.08,NA,mm,NA,NA,NA,33,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13300",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,34,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13333",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,1,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13334",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,2,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13335",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.77,NA,mm,NA,NA,NA,3,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13336",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,4,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13337",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,5,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13338",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,6,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13339",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,7,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13340",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,8,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13341",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,9,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13342",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,10,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13343",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.8,NA,mm,NA,NA,NA,11,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13344",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,12,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13345",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.93,NA,mm,NA,NA,NA,13,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13346",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,14,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13347",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.6,NA,mm,NA,NA,NA,15,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13348",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.81,NA,mm,NA,NA,NA,16,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13349",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,17,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13350",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.69,NA,mm,NA,NA,NA,18,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13351",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.07,NA,mm,NA,NA,NA,19,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13352",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,20,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13353",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,21,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13354",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,22,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13355",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.88,NA,mm,NA,NA,NA,23,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13356",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,24,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13357",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,25,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13358",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,26,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13359",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.88,NA,mm,NA,NA,NA,27,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13360",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.78,NA,mm,NA,NA,NA,28,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13361",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.98,NA,mm,NA,NA,NA,29,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13362",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,30,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13363",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,31,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13364",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,32,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13365",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.29,NA,mm,NA,NA,NA,33,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13366",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,34,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13367",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.46,NA,mm,NA,NA,NA,35,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13401",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,1,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13402",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,2,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13403",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.1,NA,mm,NA,NA,NA,3,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13404",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.48,NA,mm,NA,NA,NA,4,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13405",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.98,NA,mm,NA,NA,NA,5,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13406",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.6,NA,mm,NA,NA,NA,6,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13407",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.39,NA,mm,NA,NA,NA,7,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13408",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.07,NA,mm,NA,NA,NA,8,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13409",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.17,NA,mm,NA,NA,NA,9,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13410",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,10,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13411",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.88,NA,mm,NA,NA,NA,11,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13412",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.55,NA,mm,NA,NA,NA,12,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13413",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,13,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13414",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,14,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13415",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.6,NA,mm,NA,NA,NA,15,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13416",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,16,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13417",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,17,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13418",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.29,NA,mm,NA,NA,NA,18,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13419",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.77,NA,mm,NA,NA,NA,19,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13420",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,20,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13421",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.6,NA,mm,NA,NA,NA,21,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13422",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,22,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13423",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.38,NA,mm,NA,NA,NA,23,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13424",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.46,NA,mm,NA,NA,NA,24,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13425",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,25,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13426",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,26,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13427",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,27,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13428",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,28,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13429",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,29,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13430",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,30,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13431",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,31,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13432",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.78,NA,mm,NA,NA,NA,32,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13433",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,33,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13434",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,34,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13435",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,35,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13436",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,36,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13470",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.04,NA,mm,NA,NA,NA,1,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13471",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.02,NA,mm,NA,NA,NA,2,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13472",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.01,NA,mm,NA,NA,NA,3,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13473",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.62,NA,mm,NA,NA,NA,4,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13474",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.81,NA,mm,NA,NA,NA,5,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13475",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.86,NA,mm,NA,NA,NA,6,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13476",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.19,NA,mm,NA,NA,NA,7,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13477",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.85,NA,mm,NA,NA,NA,8,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13478",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.72,NA,mm,NA,NA,NA,9,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13479",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,10,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13480",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.04,NA,mm,NA,NA,NA,11,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13481",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.71,NA,mm,NA,NA,NA,12,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13482",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,13,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13483",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.84,NA,mm,NA,NA,NA,14,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13484",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,15,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13485",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4,NA,mm,NA,NA,NA,16,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13486",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,17,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13487",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.24,NA,mm,NA,NA,NA,18,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13488",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,19,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13489",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,20,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13490",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.03,NA,mm,NA,NA,NA,21,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13491",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.52,NA,mm,NA,NA,NA,22,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13492",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,23,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13493",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,24,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13494",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.03,NA,mm,NA,NA,NA,25,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13495",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,26,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13496",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.87,NA,mm,NA,NA,NA,27,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13497",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.05,NA,mm,NA,NA,NA,28,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13498",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.14,NA,mm,NA,NA,NA,29,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13499",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.14,NA,mm,NA,NA,NA,30,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13500",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.88,NA,mm,NA,NA,NA,31,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13533",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.24,NA,mm,NA,NA,NA,1,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13534",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.3,NA,mm,NA,NA,NA,2,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13535",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.13,NA,mm,NA,NA,NA,3,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13536",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,4,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13537",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.39,NA,mm,NA,NA,NA,5,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13538",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.77,NA,mm,NA,NA,NA,6,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13539",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,7,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13540",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.05,NA,mm,NA,NA,NA,8,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13541",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.07,NA,mm,NA,NA,NA,9,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13542",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.8,NA,mm,NA,NA,NA,10,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13543",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.98,NA,mm,NA,NA,NA,11,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13544",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,12,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13545",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.96,NA,mm,NA,NA,NA,13,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13546",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.56,NA,mm,NA,NA,NA,14,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13547",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,15,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13548",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,16,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13549",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.28,NA,mm,NA,NA,NA,17,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13550",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,18,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13551",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.96,NA,mm,NA,NA,NA,19,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13552",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.32,NA,mm,NA,NA,NA,20,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13553",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.02,NA,mm,NA,NA,NA,21,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13554",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,22,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13555",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.52,NA,mm,NA,NA,NA,23,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13556",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.89,NA,mm,NA,NA,NA,24,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13557",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.2,NA,mm,NA,NA,NA,25,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13558",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,26,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13559",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.01,NA,mm,NA,NA,NA,27,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13560",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,28,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13561",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.91,NA,mm,NA,NA,NA,29,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13562",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.11,NA,mm,NA,NA,NA,30,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13563",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.87,NA,mm,NA,NA,NA,31,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13564",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,32,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13565",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.13,NA,mm,NA,NA,NA,33,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13566",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,34,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13567",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,35,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13568",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.21,NA,mm,NA,NA,NA,36,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13569",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,37,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13606",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.03,NA,mm,NA,NA,NA,1,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13607",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.88,NA,mm,NA,NA,NA,2,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13608",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.67,NA,mm,NA,NA,NA,3,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13609",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.02,NA,mm,NA,NA,NA,4,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13610",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,5,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13611",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.5,NA,mm,NA,NA,NA,6,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13612",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,7,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13613",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.19,NA,mm,NA,NA,NA,8,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13614",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.63,NA,mm,NA,NA,NA,9,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13615",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.01,NA,mm,NA,NA,NA,10,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13616",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.24,NA,mm,NA,NA,NA,11,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13617",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.95,NA,mm,NA,NA,NA,12,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13618",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.02,NA,mm,NA,NA,NA,13,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13619",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.98,NA,mm,NA,NA,NA,14,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13620",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.86,NA,mm,NA,NA,NA,15,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13621",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,16,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13622",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.15,NA,mm,NA,NA,NA,17,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13623",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,18,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13624",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.83,NA,mm,NA,NA,NA,19,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13625",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,20,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13626",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,21,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13627",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,22,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13628",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,23,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13629",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,24,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13630",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,25,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13631",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.96,NA,mm,NA,NA,NA,26,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13632",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.07,NA,mm,NA,NA,NA,27,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13633",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,28,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13634",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.17,NA,mm,NA,NA,NA,29,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13635",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,30,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13636",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.45,NA,mm,NA,NA,NA,31,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13668",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.87,NA,mm,NA,NA,NA,1,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13669",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.48,NA,mm,NA,NA,NA,2,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13670",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,3,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13671",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.17,NA,mm,NA,NA,NA,4,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13672",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.91,NA,mm,NA,NA,NA,5,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13673",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.6,NA,mm,NA,NA,NA,6,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13674",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.93,NA,mm,NA,NA,NA,7,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13675",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,8,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13676",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,9,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13677",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,10,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13678",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,11,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13679",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,12,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13680",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.77,NA,mm,NA,NA,NA,13,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13681",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,14,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13682",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,15,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13683",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,16,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13684",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.39,NA,mm,NA,NA,NA,17,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13685",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.53,NA,mm,NA,NA,NA,18,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13686",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.09,NA,mm,NA,NA,NA,19,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13687",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,20,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13688",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,21,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13689",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,22,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13690",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.77,NA,mm,NA,NA,NA,23,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13691",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,24,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13692",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.54,NA,mm,NA,NA,NA,25,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13693",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.22,NA,mm,NA,NA,NA,26,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13694",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,27,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13695",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,28,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13696",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.1,NA,mm,NA,NA,NA,29,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13697",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,30,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13698",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.83,NA,mm,NA,NA,NA,31,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13699",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,32,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13700",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.61,NA,mm,NA,NA,NA,33,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13701",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,34,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13702",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.99,NA,mm,NA,NA,NA,35,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13703",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,36,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13704",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,37,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13743",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.07,NA,mm,NA,NA,NA,1,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13744",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,2,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13745",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,3,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13746",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,4,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13747",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,5,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13748",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,6,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13749",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.41,NA,mm,NA,NA,NA,7,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13750",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.92,NA,mm,NA,NA,NA,8,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13751",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.19,NA,mm,NA,NA,NA,9,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13752",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,10,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13753",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,11,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13754",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.39,NA,mm,NA,NA,NA,12,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13755",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.13,NA,mm,NA,NA,NA,13,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13756",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.77,NA,mm,NA,NA,NA,14,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13757",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.17,NA,mm,NA,NA,NA,15,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13758",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,16,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13759",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,17,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13760",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,18,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13761",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,19,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13762",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.6,NA,mm,NA,NA,NA,20,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13763",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.79,NA,mm,NA,NA,NA,21,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13764",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,22,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13765",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,23,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13766",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,24,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13767",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,25,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13768",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.49,NA,mm,NA,NA,NA,26,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13769",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,27,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13770",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.34,NA,mm,NA,NA,NA,28,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13771",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,29,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13772",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.73,NA,mm,NA,NA,NA,30,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13773",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.86,NA,mm,NA,NA,NA,31,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13774",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,32,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13775",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,33,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13776",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,34,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13817",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.63,NA,mm,NA,NA,NA,1,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13818",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.87,NA,mm,NA,NA,NA,2,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13819",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.99,NA,mm,NA,NA,NA,3,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13820",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.58,NA,mm,NA,NA,NA,4,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13821",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.3,NA,mm,NA,NA,NA,5,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13822",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.76,NA,mm,NA,NA,NA,6,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13823",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.86,NA,mm,NA,NA,NA,7,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13824",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.16,NA,mm,NA,NA,NA,8,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13825",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.39,NA,mm,NA,NA,NA,9,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13826",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.29,NA,mm,NA,NA,NA,10,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13827",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,11,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13828",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.2,NA,mm,NA,NA,NA,12,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13829",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,13,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13830",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,14,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13831",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,15,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13832",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,16,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13833",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,17,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13834",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,18,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13835",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.89,NA,mm,NA,NA,NA,19,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13836",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.64,NA,mm,NA,NA,NA,20,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13837",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.28,NA,mm,NA,NA,NA,21,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13838",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.51,NA,mm,NA,NA,NA,22,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13839",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,23,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13840",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,24,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13841",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.98,NA,mm,NA,NA,NA,25,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13842",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.98,NA,mm,NA,NA,NA,26,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13843",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.06,NA,mm,NA,NA,NA,27,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13844",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.66,NA,mm,NA,NA,NA,28,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13845",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,29,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13846",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.15,NA,mm,NA,NA,NA,30,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13847",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.68,NA,mm,NA,NA,NA,31,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13848",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.91,NA,mm,NA,NA,NA,32,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13849",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,33,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13850",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.58,NA,mm,NA,NA,NA,34,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13851",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,35,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13890",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,1,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13891",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.84,NA,mm,NA,NA,NA,2,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13892",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,3,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13893",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,4,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13894",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,5,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13895",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.35,NA,mm,NA,NA,NA,6,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13896",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,7,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13897",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.63,NA,mm,NA,NA,NA,8,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13898",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.81,NA,mm,NA,NA,NA,9,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13899",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.69,NA,mm,NA,NA,NA,10,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13900",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,11,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13901",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.9,NA,mm,NA,NA,NA,12,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13902",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,13,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13903",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.92,NA,mm,NA,NA,NA,14,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13904",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.29,NA,mm,NA,NA,NA,15,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13905",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.05,NA,mm,NA,NA,NA,16,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13906",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.29,NA,mm,NA,NA,NA,17,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13907",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,18,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13908",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.03,NA,mm,NA,NA,NA,19,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13909",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.91,NA,mm,NA,NA,NA,20,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13910",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.01,NA,mm,NA,NA,NA,21,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13911",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.57,NA,mm,NA,NA,NA,22,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13912",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.82,NA,mm,NA,NA,NA,23,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13913",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,24,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13914",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,25,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13915",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.78,NA,mm,NA,NA,NA,26,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13916",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.42,NA,mm,NA,NA,NA,27,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13917",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,28,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13918",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,29,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13919",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.67,NA,mm,NA,NA,NA,30,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13920",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.29,NA,mm,NA,NA,NA,31,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13921",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.01,NA,mm,NA,NA,NA,32,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13922",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.43,NA,mm,NA,NA,NA,33,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13926",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.34,NA,mm,NA,NA,NA,1,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13927",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,2,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13928",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.15,NA,mm,NA,NA,NA,3,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13929",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,4,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13930",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,5,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13931",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,6,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13932",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.35,NA,mm,NA,NA,NA,7,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13933",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,8,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13934",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,9,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13935",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.69,NA,mm,NA,NA,NA,10,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13936",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,11,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13937",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.02,NA,mm,NA,NA,NA,12,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13938",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.45,NA,mm,NA,NA,NA,13,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13939",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.1,NA,mm,NA,NA,NA,14,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13940",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.68,NA,mm,NA,NA,NA,15,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13941",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.11,NA,mm,NA,NA,NA,16,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13942",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.9,NA,mm,NA,NA,NA,17,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13943",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.87,NA,mm,NA,NA,NA,18,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13944",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.92,NA,mm,NA,NA,NA,19,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13945",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.93,NA,mm,NA,NA,NA,20,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13946",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.33,NA,mm,NA,NA,NA,21,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13947",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.82,NA,mm,NA,NA,NA,22,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13948",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.56,NA,mm,NA,NA,NA,23,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13949",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.37,NA,mm,NA,NA,NA,24,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13950",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.73,NA,mm,NA,NA,NA,25,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13951",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.11,NA,mm,NA,NA,NA,26,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13952",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.74,NA,mm,NA,NA,NA,27,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13953",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.72,NA,mm,NA,NA,NA,28,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13954",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,29,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13955",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.93,NA,mm,NA,NA,NA,30,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13956",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.92,NA,mm,NA,NA,NA,31,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13957",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,32,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13958",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.93,NA,mm,NA,NA,NA,33,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13959",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.78,NA,mm,NA,NA,NA,34,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13960",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.71,NA,mm,NA,NA,NA,35,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13961",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.59,NA,mm,NA,NA,NA,36,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13987",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.9,NA,mm,NA,NA,NA,1,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13988",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.36,NA,mm,NA,NA,NA,2,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13989",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.81,NA,mm,NA,NA,NA,3,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13990",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.35,NA,mm,NA,NA,NA,4,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13991",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.29,NA,mm,NA,NA,NA,5,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13992",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.27,NA,mm,NA,NA,NA,6,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13993",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.95,NA,mm,NA,NA,NA,7,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13994",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.41,NA,mm,NA,NA,NA,8,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13995",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.3,NA,mm,NA,NA,NA,9,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13996",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.19,NA,mm,NA,NA,NA,10,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13997",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.92,NA,mm,NA,NA,NA,11,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13998",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.26,NA,mm,NA,NA,NA,12,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13999",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.07,NA,mm,NA,NA,NA,13,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14000",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,14,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14001",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.7,NA,mm,NA,NA,NA,15,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14002",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.55,NA,mm,NA,NA,NA,16,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14003",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.78,NA,mm,NA,NA,NA,17,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14004",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,18,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14005",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,19,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14006",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.32,NA,mm,NA,NA,NA,20,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14025",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.24,NA,mm,NA,NA,NA,1,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14026",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.94,NA,mm,NA,NA,NA,2,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14027",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.22,NA,mm,NA,NA,NA,3,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14028",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.38,NA,mm,NA,NA,NA,4,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14029",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.97,NA,mm,NA,NA,NA,5,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14030",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,6,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14031",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.32,NA,mm,NA,NA,NA,7,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14032",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.02,NA,mm,NA,NA,NA,8,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14033",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.09,NA,mm,NA,NA,NA,9,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14034",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,10,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14035",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,2.97,NA,mm,NA,NA,NA,11,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14036",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3,NA,mm,NA,NA,NA,12,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14037",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.4,NA,mm,NA,NA,NA,13,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14038",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.4,NA,mm,NA,NA,NA,14,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14039",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,15,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14040",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.3,NA,mm,NA,NA,NA,16,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14041",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.31,NA,mm,NA,NA,NA,17,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14042",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.74,NA,mm,NA,NA,NA,18,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14043",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.21,NA,mm,NA,NA,NA,19,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14044",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,20,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14045",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.65,NA,mm,NA,NA,NA,21,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14046",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.8,NA,mm,NA,NA,NA,22,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14047",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,23,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14048",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.77,NA,mm,NA,NA,NA,24,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14049",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.17,NA,mm,NA,NA,NA,25,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14050",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,26,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14051",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.91,NA,mm,NA,NA,NA,27,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14052",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.82,NA,mm,NA,NA,NA,28,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14053",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.2,NA,mm,NA,NA,NA,29,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14054",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.25,NA,mm,NA,NA,NA,30,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14055",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.03,NA,mm,NA,NA,NA,31,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14056",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.44,NA,mm,NA,NA,NA,32,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14057",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.94,NA,mm,NA,NA,NA,33,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14058",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,34,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14059",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.48,NA,mm,NA,NA,NA,35,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14060",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.88,NA,mm,NA,NA,NA,36,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14076",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.76,NA,mm,NA,NA,NA,1,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14077",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.67,NA,mm,NA,NA,NA,2,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14078",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.5,NA,mm,NA,NA,NA,3,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14079",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.13,NA,mm,NA,NA,NA,4,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14080",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.02,NA,mm,NA,NA,NA,5,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14081",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4,NA,mm,NA,NA,NA,6,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14082",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.47,NA,mm,NA,NA,NA,7,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14083",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.9,NA,mm,NA,NA,NA,8,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14084",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.85,NA,mm,NA,NA,NA,9,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14085",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.62,NA,mm,NA,NA,NA,10,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14086",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,3.87,NA,mm,NA,NA,NA,11,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14087",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,forewing length,NA,NA,NA,single observation,4.16,NA,mm,NA,NA,NA,12,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus pascuorum,gbif:1340405,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,90%,mean,NA,2,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,queen,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus pascuorum,gbif:1340405,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,90%,mean,NA,2,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,worker,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus pascuorum,gbif:1340405,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.07,mean,mm,NA,0.25,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.32,mean,mm,490,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.44,mean,mm,NA,0.25,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13051",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.82,NA,mm,NA,NA,NA,1,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13052",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.19,NA,mm,NA,NA,NA,2,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13053",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,3,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13054",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.61,NA,mm,NA,NA,NA,4,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13055",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.87,NA,mm,NA,NA,NA,5,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13056",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,6,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13057",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.98,NA,mm,NA,NA,NA,7,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13058",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,8,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13059",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,9,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13060",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,10,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13061",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,11,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13062",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.14,NA,mm,NA,NA,NA,12,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13063",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.68,NA,mm,NA,NA,NA,13,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13064",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.93,NA,mm,NA,NA,NA,14,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13065",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,15,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13066",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,16,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13067",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,17,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13068",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.81,NA,mm,NA,NA,NA,18,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13069",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.85,NA,mm,NA,NA,NA,19,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13070",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,20,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13071",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,21,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13072",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,22,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13073",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,23,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13074",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,24,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13075",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.41,NA,mm,NA,NA,NA,25,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13076",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,26,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13077",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,27,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13078",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.73,NA,mm,NA,NA,NA,28,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13079",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,29,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13080",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,30,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13081",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,31,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13082",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,32,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13083",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.7,NA,mm,NA,NA,NA,33,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13084",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.83,NA,mm,NA,NA,NA,34,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13085",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.59,NA,mm,NA,NA,NA,35,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13086",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.41,NA,mm,NA,NA,NA,36,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13125",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.65,NA,mm,NA,NA,NA,1,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13126",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,2,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13127",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,3,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13128",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.84,NA,mm,NA,NA,NA,4,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13129",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,5,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13130",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.61,NA,mm,NA,NA,NA,6,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13131",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,7,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13132",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,8,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13133",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.91,NA,mm,NA,NA,NA,9,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13134",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,10,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13135",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,11,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13136",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,12,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13137",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,13,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13138",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,14,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13139",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,15,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13140",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.7,NA,mm,NA,NA,NA,16,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13141",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.06,NA,mm,NA,NA,NA,17,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13142",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.79,NA,mm,NA,NA,NA,18,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13143",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.8,NA,mm,NA,NA,NA,19,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13144",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,20,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13145",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,21,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13146",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.53,NA,mm,NA,NA,NA,22,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13147",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.74,NA,mm,NA,NA,NA,23,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13148",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,24,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13149",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,25,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13150",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.71,NA,mm,NA,NA,NA,26,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13151",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.88,NA,mm,NA,NA,NA,27,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13152",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,28,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13153",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.09,NA,mm,NA,NA,NA,29,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13154",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,30,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13155",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.9,NA,mm,NA,NA,NA,31,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13156",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,32,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13157",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.77,NA,mm,NA,NA,NA,33,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13158",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,34,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13159",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.41,NA,mm,NA,NA,NA,35,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13197",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,1,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13198",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,2,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13199",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.98,NA,mm,NA,NA,NA,3,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13200",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,4,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13201",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,5,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13202",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,6,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13203",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.68,NA,mm,NA,NA,NA,7,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13204",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.07,NA,mm,NA,NA,NA,8,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13205",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,9,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13206",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.8,NA,mm,NA,NA,NA,10,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13207",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,11,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13208",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.8,NA,mm,NA,NA,NA,12,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13209",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.84,NA,mm,NA,NA,NA,13,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13210",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,14,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13211",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.75,NA,mm,NA,NA,NA,15,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13212",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,16,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13213",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.72,NA,mm,NA,NA,NA,17,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13214",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.55,NA,mm,NA,NA,NA,18,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13215",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,19,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13216",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.75,NA,mm,NA,NA,NA,20,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13217",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,21,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13218",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,22,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13219",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,23,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13220",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.9,NA,mm,NA,NA,NA,24,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13221",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.33,NA,mm,NA,NA,NA,25,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13222",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,26,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13223",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,27,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13224",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,28,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13225",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,29,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13226",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,30,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13227",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,31,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13228",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.67,NA,mm,NA,NA,NA,32,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13229",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.95,NA,mm,NA,NA,NA,33,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13230",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.77,NA,mm,NA,NA,NA,34,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13231",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.48,NA,mm,NA,NA,NA,35,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13232",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.54,NA,mm,NA,NA,NA,36,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13233",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.53,NA,mm,NA,NA,NA,37,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13234",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,38,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13267",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,1,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13268",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,2,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13269",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,3,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13270",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,4,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13271",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,5,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13272",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,6,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13273",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.8,NA,mm,NA,NA,NA,7,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13274",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,8,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13275",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.62,NA,mm,NA,NA,NA,9,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13276",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,10,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13277",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,11,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13278",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.04,NA,mm,NA,NA,NA,12,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13279",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,13,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13280",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.74,NA,mm,NA,NA,NA,14,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13281",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.69,NA,mm,NA,NA,NA,15,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13282",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.6,NA,mm,NA,NA,NA,16,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13283",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,17,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13284",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.34,NA,mm,NA,NA,NA,18,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13285",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,19,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13286",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.85,NA,mm,NA,NA,NA,20,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13287",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,21,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13288",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,22,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13289",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.13,NA,mm,NA,NA,NA,23,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13290",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,24,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13291",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.66,NA,mm,NA,NA,NA,25,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13292",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,26,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13293",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.97,NA,mm,NA,NA,NA,27,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13294",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,28,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13295",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.96,NA,mm,NA,NA,NA,29,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13296",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.75,NA,mm,NA,NA,NA,30,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13297",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,31,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13298",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,32,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13299",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.03,NA,mm,NA,NA,NA,33,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13300",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.34,NA,mm,NA,NA,NA,34,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13333",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.09,NA,mm,NA,NA,NA,1,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13334",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.82,NA,mm,NA,NA,NA,2,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13335",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,3,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13336",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,4,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13337",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,5,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13338",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,6,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13339",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,7,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13340",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,8,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13341",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,9,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13342",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,10,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13343",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,11,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13344",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.67,NA,mm,NA,NA,NA,12,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13345",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.04,NA,mm,NA,NA,NA,13,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13346",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,14,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13347",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,15,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13348",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.59,NA,mm,NA,NA,NA,16,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13349",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,17,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13350",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.73,NA,mm,NA,NA,NA,18,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13351",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3,NA,mm,NA,NA,NA,19,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13352",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,20,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13353",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.57,NA,mm,NA,NA,NA,21,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13354",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,22,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13355",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.87,NA,mm,NA,NA,NA,23,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13356",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.06,NA,mm,NA,NA,NA,24,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13357",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,25,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13358",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,26,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13359",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.57,NA,mm,NA,NA,NA,27,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13360",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.59,NA,mm,NA,NA,NA,28,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13361",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.62,NA,mm,NA,NA,NA,29,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13362",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,30,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13363",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,31,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13364",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.86,NA,mm,NA,NA,NA,32,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13365",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,33,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13366",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,34,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13367",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,35,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13401",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,1,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13402",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,2,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13403",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.86,NA,mm,NA,NA,NA,3,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13404",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.41,NA,mm,NA,NA,NA,4,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13405",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.55,NA,mm,NA,NA,NA,5,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13406",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,6,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13407",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.02,NA,mm,NA,NA,NA,7,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13408",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.81,NA,mm,NA,NA,NA,8,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13409",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3,NA,mm,NA,NA,NA,9,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13410",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.91,NA,mm,NA,NA,NA,10,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13411",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,11,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13412",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,12,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13413",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.08,NA,mm,NA,NA,NA,13,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13414",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,14,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13415",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,15,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13416",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.88,NA,mm,NA,NA,NA,16,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13417",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,17,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13418",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,18,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13419",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.72,NA,mm,NA,NA,NA,19,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13420",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,20,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13421",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,21,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13422",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.67,NA,mm,NA,NA,NA,22,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13423",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,23,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13424",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,24,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13425",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.06,NA,mm,NA,NA,NA,25,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13426",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,26,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13427",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,27,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13428",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,28,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13429",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,29,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13430",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,30,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13431",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,31,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13432",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,32,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13433",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,33,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13434",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.18,NA,mm,NA,NA,NA,34,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13435",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.01,NA,mm,NA,NA,NA,35,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13436",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.61,NA,mm,NA,NA,NA,36,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13470",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,1,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13471",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.84,NA,mm,NA,NA,NA,2,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13472",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.06,NA,mm,NA,NA,NA,3,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13473",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.65,NA,mm,NA,NA,NA,4,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13474",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.68,NA,mm,NA,NA,NA,5,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13475",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.81,NA,mm,NA,NA,NA,6,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13476",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,7,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13477",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.53,NA,mm,NA,NA,NA,8,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13478",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.68,NA,mm,NA,NA,NA,9,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13479",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.01,NA,mm,NA,NA,NA,10,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13480",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.68,NA,mm,NA,NA,NA,11,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13481",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.69,NA,mm,NA,NA,NA,12,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13482",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,13,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13483",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.54,NA,mm,NA,NA,NA,14,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13484",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.96,NA,mm,NA,NA,NA,15,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13485",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,16,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13486",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,17,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13487",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,18,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13488",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.89,NA,mm,NA,NA,NA,19,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13489",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,20,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13490",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.77,NA,mm,NA,NA,NA,21,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13491",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.32,NA,mm,NA,NA,NA,22,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13492",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,23,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13493",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,24,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13494",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.97,NA,mm,NA,NA,NA,25,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13495",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,26,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13496",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,27,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13497",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.03,NA,mm,NA,NA,NA,28,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13498",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,29,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13499",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.98,NA,mm,NA,NA,NA,30,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13500",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.82,NA,mm,NA,NA,NA,31,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13533",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.09,NA,mm,NA,NA,NA,1,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13534",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,2,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13535",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.91,NA,mm,NA,NA,NA,3,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13536",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.06,NA,mm,NA,NA,NA,4,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13537",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,5,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13538",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.76,NA,mm,NA,NA,NA,6,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13539",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,7,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13540",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.01,NA,mm,NA,NA,NA,8,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13541",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,9,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13542",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.63,NA,mm,NA,NA,NA,10,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13543",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.72,NA,mm,NA,NA,NA,11,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13544",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.62,NA,mm,NA,NA,NA,12,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13545",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.84,NA,mm,NA,NA,NA,13,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13546",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,14,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13547",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,15,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13548",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,16,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13549",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.91,NA,mm,NA,NA,NA,17,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13550",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,18,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13551",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.81,NA,mm,NA,NA,NA,19,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13552",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,20,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13553",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.75,NA,mm,NA,NA,NA,21,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13554",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.91,NA,mm,NA,NA,NA,22,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13555",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,23,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13556",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.87,NA,mm,NA,NA,NA,24,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13557",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.99,NA,mm,NA,NA,NA,25,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13558",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,26,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13559",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.93,NA,mm,NA,NA,NA,27,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13560",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,28,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13561",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.77,NA,mm,NA,NA,NA,29,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13562",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,30,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13563",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,31,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13564",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,32,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13565",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.84,NA,mm,NA,NA,NA,33,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13566",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.09,NA,mm,NA,NA,NA,34,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13567",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,35,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13568",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.82,NA,mm,NA,NA,NA,36,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13569",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.77,NA,mm,NA,NA,NA,37,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13606",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.91,NA,mm,NA,NA,NA,1,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13607",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.67,NA,mm,NA,NA,NA,2,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13608",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.4,NA,mm,NA,NA,NA,3,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13609",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.85,NA,mm,NA,NA,NA,4,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13610",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.85,NA,mm,NA,NA,NA,5,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13611",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.6,NA,mm,NA,NA,NA,6,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13612",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,7,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13613",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.99,NA,mm,NA,NA,NA,8,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13614",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.53,NA,mm,NA,NA,NA,9,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13615",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.18,NA,mm,NA,NA,NA,10,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13616",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.03,NA,mm,NA,NA,NA,11,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13617",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.84,NA,mm,NA,NA,NA,12,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13618",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,13,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13619",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.96,NA,mm,NA,NA,NA,14,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13620",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.72,NA,mm,NA,NA,NA,15,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13621",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,16,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13622",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,17,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13623",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.88,NA,mm,NA,NA,NA,18,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13624",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.63,NA,mm,NA,NA,NA,19,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13625",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.71,NA,mm,NA,NA,NA,20,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13626",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.48,NA,mm,NA,NA,NA,21,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13627",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,22,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13628",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,23,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13629",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,24,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13630",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,25,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13631",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.74,NA,mm,NA,NA,NA,26,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13632",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.98,NA,mm,NA,NA,NA,27,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13633",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,28,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13634",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.92,NA,mm,NA,NA,NA,29,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13635",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.59,NA,mm,NA,NA,NA,30,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13636",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.45,NA,mm,NA,NA,NA,31,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13668",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,1,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13669",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,2,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13670",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.65,NA,mm,NA,NA,NA,3,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13671",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.95,NA,mm,NA,NA,NA,4,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13672",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,5,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13673",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,6,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13674",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,7,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13675",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.97,NA,mm,NA,NA,NA,8,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13676",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,9,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13677",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.92,NA,mm,NA,NA,NA,10,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13678",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,11,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13679",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,12,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13680",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.58,NA,mm,NA,NA,NA,13,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13681",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,14,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13682",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.59,NA,mm,NA,NA,NA,15,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13683",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.8,NA,mm,NA,NA,NA,16,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13684",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,17,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13685",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,18,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13686",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.83,NA,mm,NA,NA,NA,19,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13687",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,20,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13688",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.41,NA,mm,NA,NA,NA,21,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13689",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,22,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13690",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.74,NA,mm,NA,NA,NA,23,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13691",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,24,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13692",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.45,NA,mm,NA,NA,NA,25,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13693",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,26,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13694",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,27,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13695",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.7,NA,mm,NA,NA,NA,28,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13696",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.83,NA,mm,NA,NA,NA,29,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13697",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,30,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13698",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,31,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13699",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.67,NA,mm,NA,NA,NA,32,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13700",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.43,NA,mm,NA,NA,NA,33,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13701",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,34,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13702",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.87,NA,mm,NA,NA,NA,35,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13703",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.61,NA,mm,NA,NA,NA,36,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13704",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,37,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13743",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,1,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13744",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,2,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13745",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,3,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13746",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.65,NA,mm,NA,NA,NA,4,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13747",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,5,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13748",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,6,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13749",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.38,NA,mm,NA,NA,NA,7,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13750",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.04,NA,mm,NA,NA,NA,8,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13751",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,9,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13752",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,10,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13753",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,11,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13754",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.35,NA,mm,NA,NA,NA,12,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13755",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.99,NA,mm,NA,NA,NA,13,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13756",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.66,NA,mm,NA,NA,NA,14,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13757",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,15,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13758",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,16,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13759",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.88,NA,mm,NA,NA,NA,17,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13760",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,18,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13761",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,19,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13762",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,20,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13763",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.76,NA,mm,NA,NA,NA,21,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13764",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,22,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13765",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,23,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13766",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,24,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13767",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,25,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13768",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,26,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13769",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.33,NA,mm,NA,NA,NA,27,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13770",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,28,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13771",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,29,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13772",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,30,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13773",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,31,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13774",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,32,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13775",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,33,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13776",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,34,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13817",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.55,NA,mm,NA,NA,NA,1,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13818",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.75,NA,mm,NA,NA,NA,2,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13819",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.85,NA,mm,NA,NA,NA,3,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13820",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,4,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13821",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.18,NA,mm,NA,NA,NA,5,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13822",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.52,NA,mm,NA,NA,NA,6,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13823",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.88,NA,mm,NA,NA,NA,7,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13824",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.62,NA,mm,NA,NA,NA,8,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13825",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.08,NA,mm,NA,NA,NA,9,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13826",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,10,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13827",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,11,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13828",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,12,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13829",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,13,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13830",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,14,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13831",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,15,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13832",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,16,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13833",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.71,NA,mm,NA,NA,NA,17,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13834",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,18,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13835",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.87,NA,mm,NA,NA,NA,19,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13836",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,20,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13837",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.13,NA,mm,NA,NA,NA,21,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13838",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,22,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13839",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,23,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13840",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.19,NA,mm,NA,NA,NA,24,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13841",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.92,NA,mm,NA,NA,NA,25,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13842",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,26,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13843",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.07,NA,mm,NA,NA,NA,27,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13844",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,28,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13845",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,29,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13846",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.85,NA,mm,NA,NA,NA,30,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13847",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,31,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13848",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,32,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13849",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.04,NA,mm,NA,NA,NA,33,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13850",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.62,NA,mm,NA,NA,NA,34,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13851",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,35,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13890",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.12,NA,mm,NA,NA,NA,1,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13891",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.65,NA,mm,NA,NA,NA,2,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13892",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,3,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13893",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,4,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13894",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,5,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13895",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,6,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13896",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,7,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13897",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.84,NA,mm,NA,NA,NA,8,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13898",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.69,NA,mm,NA,NA,NA,9,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13899",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,10,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13900",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,11,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13901",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.69,NA,mm,NA,NA,NA,12,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13902",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,13,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13903",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.98,NA,mm,NA,NA,NA,14,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13904",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,15,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13905",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.82,NA,mm,NA,NA,NA,16,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13906",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.39,NA,mm,NA,NA,NA,17,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13907",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3,NA,mm,NA,NA,NA,18,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13908",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.96,NA,mm,NA,NA,NA,19,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13909",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.71,NA,mm,NA,NA,NA,20,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13910",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,21,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13911",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,22,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13912",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,23,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13913",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.22,NA,mm,NA,NA,NA,24,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13914",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,25,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13915",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.93,NA,mm,NA,NA,NA,26,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13916",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.3,NA,mm,NA,NA,NA,27,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13917",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.49,NA,mm,NA,NA,NA,28,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13918",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,29,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13919",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.65,NA,mm,NA,NA,NA,30,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13920",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.17,NA,mm,NA,NA,NA,31,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13921",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.3,NA,mm,NA,NA,NA,32,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13922",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,33,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13926",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.51,NA,mm,NA,NA,NA,1,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13927",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.07,NA,mm,NA,NA,NA,2,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13928",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.9,NA,mm,NA,NA,NA,3,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13929",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.97,NA,mm,NA,NA,NA,4,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13930",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.26,NA,mm,NA,NA,NA,5,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13931",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.31,NA,mm,NA,NA,NA,6,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13932",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.87,NA,mm,NA,NA,NA,7,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13933",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.18,NA,mm,NA,NA,NA,8,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13934",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,9,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13935",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.62,NA,mm,NA,NA,NA,10,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13936",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.2,NA,mm,NA,NA,NA,11,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13937",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.99,NA,mm,NA,NA,NA,12,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13938",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.06,NA,mm,NA,NA,NA,13,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13939",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.04,NA,mm,NA,NA,NA,14,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13940",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.3,NA,mm,NA,NA,NA,15,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13941",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.73,NA,mm,NA,NA,NA,16,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13942",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.79,NA,mm,NA,NA,NA,17,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13943",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.81,NA,mm,NA,NA,NA,18,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13944",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.73,NA,mm,NA,NA,NA,19,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13945",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.84,NA,mm,NA,NA,NA,20,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13946",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,21,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13947",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.64,NA,mm,NA,NA,NA,22,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13948",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,23,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13949",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.02,NA,mm,NA,NA,NA,24,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13950",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.18,NA,mm,NA,NA,NA,25,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13951",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.67,NA,mm,NA,NA,NA,26,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13952",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.61,NA,mm,NA,NA,NA,27,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13953",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,28,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13954",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.79,NA,mm,NA,NA,NA,29,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13955",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.84,NA,mm,NA,NA,NA,30,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13956",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.58,NA,mm,NA,NA,NA,31,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13957",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.16,NA,mm,NA,NA,NA,32,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13958",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,33,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13959",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.9,NA,mm,NA,NA,NA,34,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13960",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.5,NA,mm,NA,NA,NA,35,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13961",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.32,NA,mm,NA,NA,NA,36,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13987",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.85,NA,mm,NA,NA,NA,1,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13988",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.82,NA,mm,NA,NA,NA,2,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13989",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.72,NA,mm,NA,NA,NA,3,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13990",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.74,NA,mm,NA,NA,NA,4,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13991",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,5,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13992",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,6,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13993",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.96,NA,mm,NA,NA,NA,7,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13994",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.38,NA,mm,NA,NA,NA,8,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13995",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.36,NA,mm,NA,NA,NA,9,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13996",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,10,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13997",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.18,NA,mm,NA,NA,NA,11,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13998",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.13,NA,mm,NA,NA,NA,12,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13999",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,13,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14000",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,14,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14001",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.55,NA,mm,NA,NA,NA,15,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14002",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.4,NA,mm,NA,NA,NA,16,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14003",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.55,NA,mm,NA,NA,NA,17,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14004",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,18,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14005",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.14,NA,mm,NA,NA,NA,19,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14006",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.28,NA,mm,NA,NA,NA,20,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14025",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,1,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14026",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.58,NA,mm,NA,NA,NA,2,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14027",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,3,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14028",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.34,NA,mm,NA,NA,NA,4,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14029",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.76,NA,mm,NA,NA,NA,5,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14030",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.25,NA,mm,NA,NA,NA,6,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14031",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.34,NA,mm,NA,NA,NA,7,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14032",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.01,NA,mm,NA,NA,NA,8,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14033",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.89,NA,mm,NA,NA,NA,9,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14034",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.29,NA,mm,NA,NA,NA,10,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14035",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.05,NA,mm,NA,NA,NA,11,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14036",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.15,NA,mm,NA,NA,NA,12,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14037",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,4.32,NA,mm,NA,NA,NA,13,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14038",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.1,NA,mm,NA,NA,NA,14,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14039",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,15,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14040",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.95,NA,mm,NA,NA,NA,16,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14041",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.21,NA,mm,NA,NA,NA,17,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14042",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.24,NA,mm,NA,NA,NA,18,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14043",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.07,NA,mm,NA,NA,NA,19,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14044",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.8,NA,mm,NA,NA,NA,20,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14045",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.42,NA,mm,NA,NA,NA,21,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14046",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.67,NA,mm,NA,NA,NA,22,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14047",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.47,NA,mm,NA,NA,NA,23,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14048",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,24,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14049",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,25,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14050",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.51,NA,mm,NA,NA,NA,26,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14051",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.44,NA,mm,NA,NA,NA,27,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14052",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.54,NA,mm,NA,NA,NA,28,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14053",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.46,NA,mm,NA,NA,NA,29,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14054",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.86,NA,mm,NA,NA,NA,30,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14055",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.56,NA,mm,NA,NA,NA,31,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14056",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.11,NA,mm,NA,NA,NA,32,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14057",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.59,NA,mm,NA,NA,NA,33,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14058",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.6,NA,mm,NA,NA,NA,34,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14059",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.27,NA,mm,NA,NA,NA,35,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14060",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.7,NA,mm,NA,NA,NA,36,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14076",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.63,NA,mm,NA,NA,NA,1,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14077",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.52,NA,mm,NA,NA,NA,2,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14078",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,2.97,NA,mm,NA,NA,NA,3,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14079",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.07,NA,mm,NA,NA,NA,4,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14080",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.87,NA,mm,NA,NA,NA,5,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14081",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.74,NA,mm,NA,NA,NA,6,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14082",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.23,NA,mm,NA,NA,NA,7,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14083",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.64,NA,mm,NA,NA,NA,8,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14084",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.65,NA,mm,NA,NA,NA,9,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14085",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.37,NA,mm,NA,NA,NA,10,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14086",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.55,NA,mm,NA,NA,NA,11,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14087",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,Intertegular distance (ITD) was measured as the distance between the tegulae,NA,single observation,3.95,NA,mm,NA,NA,NA,12,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus pascuorum,gbif:1340405,body size,thorax length,NA,mean thorax length,NA,species,11.8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13051",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.17,NA,mm,NA,NA,NA,1,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13052",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.26,NA,mm,NA,NA,NA,2,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13053",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.71,NA,mm,NA,NA,NA,3,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13054",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.63,NA,mm,NA,NA,NA,4,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13055",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.38,NA,mm,NA,NA,NA,5,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13056",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.32,NA,mm,NA,NA,NA,6,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13057",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.53,NA,mm,NA,NA,NA,7,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13058",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.16,NA,mm,NA,NA,NA,8,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13059",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.89,NA,mm,NA,NA,NA,9,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13060",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.63,NA,mm,NA,NA,NA,10,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13061",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.12,NA,mm,NA,NA,NA,11,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13062",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.27,NA,mm,NA,NA,NA,12,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13063",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.8,NA,mm,NA,NA,NA,13,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13064",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.41,NA,mm,NA,NA,NA,14,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13065",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.47,NA,mm,NA,NA,NA,15,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13066",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.44,NA,mm,NA,NA,NA,16,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13067",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.32,NA,mm,NA,NA,NA,17,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13068",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.89,NA,mm,NA,NA,NA,18,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13069",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.09,NA,mm,NA,NA,NA,19,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13070",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.78,NA,mm,NA,NA,NA,20,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13071",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.27,NA,mm,NA,NA,NA,21,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13072",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.03,NA,mm,NA,NA,NA,22,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13073",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.72,NA,mm,NA,NA,NA,23,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13074",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.19,NA,mm,NA,NA,NA,24,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13075",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.15,NA,mm,NA,NA,NA,25,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13076",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.02,NA,mm,NA,NA,NA,26,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13077",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.25,NA,mm,NA,NA,NA,27,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13078",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.07,NA,mm,NA,NA,NA,28,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13079",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.18,NA,mm,NA,NA,NA,29,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13080",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.2,NA,mm,NA,NA,NA,30,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13081",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.23,NA,mm,NA,NA,NA,31,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13082",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.45,NA,mm,NA,NA,NA,32,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13083",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.93,NA,mm,NA,NA,NA,33,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13084",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10,NA,mm,NA,NA,NA,34,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13085",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.65,NA,mm,NA,NA,NA,35,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13086",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.1,NA,mm,NA,NA,NA,36,NA,08.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13125",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.3,NA,mm,NA,NA,NA,1,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13126",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.67,NA,mm,NA,NA,NA,2,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13127",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.24,NA,mm,NA,NA,NA,3,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13128",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.32,NA,mm,NA,NA,NA,4,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13129",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.69,NA,mm,NA,NA,NA,5,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13130",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.1,NA,mm,NA,NA,NA,6,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13131",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.36,NA,mm,NA,NA,NA,7,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13132",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.91,NA,mm,NA,NA,NA,8,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13133",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.3,NA,mm,NA,NA,NA,9,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13134",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.16,NA,mm,NA,NA,NA,10,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13135",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.64,NA,mm,NA,NA,NA,11,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13136",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.45,NA,mm,NA,NA,NA,12,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13137",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.72,NA,mm,NA,NA,NA,13,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13138",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.85,NA,mm,NA,NA,NA,14,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13139",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.48,NA,mm,NA,NA,NA,15,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13140",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.47,NA,mm,NA,NA,NA,16,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13141",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.1,NA,mm,NA,NA,NA,17,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13142",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.79,NA,mm,NA,NA,NA,18,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13143",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,19,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13144",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.3,NA,mm,NA,NA,NA,20,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13145",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.09,NA,mm,NA,NA,NA,21,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13146",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.54,NA,mm,NA,NA,NA,22,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13147",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.44,NA,mm,NA,NA,NA,23,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13148",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.85,NA,mm,NA,NA,NA,24,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13149",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.06,NA,mm,NA,NA,NA,25,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13150",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.27,NA,mm,NA,NA,NA,26,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13151",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.83,NA,mm,NA,NA,NA,27,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13152",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.03,NA,mm,NA,NA,NA,28,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13153",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.32,NA,mm,NA,NA,NA,29,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13154",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.13,NA,mm,NA,NA,NA,30,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13155",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.54,NA,mm,NA,NA,NA,31,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13156",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.8,NA,mm,NA,NA,NA,32,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13157",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.28,NA,mm,NA,NA,NA,33,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13158",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.44,NA,mm,NA,NA,NA,34,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13159",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.95,NA,mm,NA,NA,NA,35,NA,10.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13197",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.19,NA,mm,NA,NA,NA,1,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13198",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.03,NA,mm,NA,NA,NA,2,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13199",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.23,NA,mm,NA,NA,NA,3,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13200",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.77,NA,mm,NA,NA,NA,4,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13201",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.32,NA,mm,NA,NA,NA,5,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13202",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.17,NA,mm,NA,NA,NA,6,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13203",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.11,NA,mm,NA,NA,NA,7,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13204",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.66,NA,mm,NA,NA,NA,8,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13205",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.44,NA,mm,NA,NA,NA,9,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13206",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.9,NA,mm,NA,NA,NA,10,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13207",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.46,NA,mm,NA,NA,NA,11,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13208",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.32,NA,mm,NA,NA,NA,12,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13209",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.75,NA,mm,NA,NA,NA,13,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13210",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11.14,NA,mm,NA,NA,NA,14,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13211",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.39,NA,mm,NA,NA,NA,15,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13212",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.13,NA,mm,NA,NA,NA,16,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13213",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.4,NA,mm,NA,NA,NA,17,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13214",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.87,NA,mm,NA,NA,NA,18,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13215",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.85,NA,mm,NA,NA,NA,19,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13216",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.02,NA,mm,NA,NA,NA,20,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13217",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.76,NA,mm,NA,NA,NA,21,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13218",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.07,NA,mm,NA,NA,NA,22,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13219",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.21,NA,mm,NA,NA,NA,23,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13220",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.82,NA,mm,NA,NA,NA,24,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13221",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.75,NA,mm,NA,NA,NA,25,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13222",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.33,NA,mm,NA,NA,NA,26,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13223",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.15,NA,mm,NA,NA,NA,27,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13224",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.42,NA,mm,NA,NA,NA,28,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13225",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.69,NA,mm,NA,NA,NA,29,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13226",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.47,NA,mm,NA,NA,NA,30,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13227",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.09,NA,mm,NA,NA,NA,31,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13228",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.48,NA,mm,NA,NA,NA,32,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13229",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.74,NA,mm,NA,NA,NA,33,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13230",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.85,NA,mm,NA,NA,NA,34,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13231",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.41,NA,mm,NA,NA,NA,35,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13232",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.25,NA,mm,NA,NA,NA,36,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13233",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.75,NA,mm,NA,NA,NA,37,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13234",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.53,NA,mm,NA,NA,NA,38,NA,18.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13267",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.98,NA,mm,NA,NA,NA,1,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13268",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.2,NA,mm,NA,NA,NA,2,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13269",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.12,NA,mm,NA,NA,NA,3,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13270",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.65,NA,mm,NA,NA,NA,4,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13271",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.72,NA,mm,NA,NA,NA,5,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13272",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.72,NA,mm,NA,NA,NA,6,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13273",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.22,NA,mm,NA,NA,NA,7,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13274",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.28,NA,mm,NA,NA,NA,8,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13275",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.22,NA,mm,NA,NA,NA,9,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13276",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.74,NA,mm,NA,NA,NA,10,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13277",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.68,NA,mm,NA,NA,NA,11,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13278",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.26,NA,mm,NA,NA,NA,12,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13279",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9,NA,mm,NA,NA,NA,13,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13280",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.64,NA,mm,NA,NA,NA,14,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13281",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.78,NA,mm,NA,NA,NA,15,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13282",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.16,NA,mm,NA,NA,NA,16,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13283",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.16,NA,mm,NA,NA,NA,17,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13284",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.88,NA,mm,NA,NA,NA,18,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13285",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.47,NA,mm,NA,NA,NA,19,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13286",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.13,NA,mm,NA,NA,NA,20,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13287",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.04,NA,mm,NA,NA,NA,21,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13288",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.4,NA,mm,NA,NA,NA,22,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13289",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.71,NA,mm,NA,NA,NA,23,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13290",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.74,NA,mm,NA,NA,NA,24,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13291",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.19,NA,mm,NA,NA,NA,25,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13292",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.22,NA,mm,NA,NA,NA,26,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13293",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.26,NA,mm,NA,NA,NA,27,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13294",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.32,NA,mm,NA,NA,NA,28,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13295",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.37,NA,mm,NA,NA,NA,29,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13296",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.64,NA,mm,NA,NA,NA,30,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13297",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.98,NA,mm,NA,NA,NA,31,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13298",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.7,NA,mm,NA,NA,NA,32,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13299",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.25,NA,mm,NA,NA,NA,33,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13300",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.77,NA,mm,NA,NA,NA,34,NA,11.07.2016,NA,female (assumed),adult,Z�rich,47�22_N,8�33_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13333",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,1,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13334",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.36,NA,mm,NA,NA,NA,2,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13335",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.44,NA,mm,NA,NA,NA,3,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13336",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.56,NA,mm,NA,NA,NA,4,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13337",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.36,NA,mm,NA,NA,NA,5,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13338",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.69,NA,mm,NA,NA,NA,6,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13339",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.23,NA,mm,NA,NA,NA,7,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13340",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.69,NA,mm,NA,NA,NA,8,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13341",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.95,NA,mm,NA,NA,NA,9,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13342",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.59,NA,mm,NA,NA,NA,10,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13343",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.02,NA,mm,NA,NA,NA,11,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13344",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.44,NA,mm,NA,NA,NA,12,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13345",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.17,NA,mm,NA,NA,NA,13,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13346",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.57,NA,mm,NA,NA,NA,14,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13347",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.75,NA,mm,NA,NA,NA,15,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13348",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.52,NA,mm,NA,NA,NA,16,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13349",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.69,NA,mm,NA,NA,NA,17,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13350",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.64,NA,mm,NA,NA,NA,18,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13351",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.9,NA,mm,NA,NA,NA,19,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13352",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.89,NA,mm,NA,NA,NA,20,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13353",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9,NA,mm,NA,NA,NA,21,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13354",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.44,NA,mm,NA,NA,NA,22,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13355",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.4,NA,mm,NA,NA,NA,23,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13356",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.97,NA,mm,NA,NA,NA,24,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13357",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.79,NA,mm,NA,NA,NA,25,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13358",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.96,NA,mm,NA,NA,NA,26,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13359",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.41,NA,mm,NA,NA,NA,27,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13360",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.85,NA,mm,NA,NA,NA,28,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13361",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.92,NA,mm,NA,NA,NA,29,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13362",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.99,NA,mm,NA,NA,NA,30,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13363",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.49,NA,mm,NA,NA,NA,31,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13364",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.88,NA,mm,NA,NA,NA,32,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13365",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.01,NA,mm,NA,NA,NA,33,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13366",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.02,NA,mm,NA,NA,NA,34,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13367",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.78,NA,mm,NA,NA,NA,35,NA,22.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13401",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.24,NA,mm,NA,NA,NA,1,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13402",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.19,NA,mm,NA,NA,NA,2,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13403",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,3,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13404",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.45,NA,mm,NA,NA,NA,4,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13405",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.26,NA,mm,NA,NA,NA,5,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13406",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.89,NA,mm,NA,NA,NA,6,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13407",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11.24,NA,mm,NA,NA,NA,7,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13408",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.92,NA,mm,NA,NA,NA,8,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13409",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.11,NA,mm,NA,NA,NA,9,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13410",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.47,NA,mm,NA,NA,NA,10,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13411",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.95,NA,mm,NA,NA,NA,11,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13412",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.36,NA,mm,NA,NA,NA,12,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13413",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.44,NA,mm,NA,NA,NA,13,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13414",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.32,NA,mm,NA,NA,NA,14,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13415",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.07,NA,mm,NA,NA,NA,15,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13416",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.72,NA,mm,NA,NA,NA,16,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13417",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.6,NA,mm,NA,NA,NA,17,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13418",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.26,NA,mm,NA,NA,NA,18,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13419",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.41,NA,mm,NA,NA,NA,19,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13420",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.23,NA,mm,NA,NA,NA,20,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13421",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.2,NA,mm,NA,NA,NA,21,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13422",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.1,NA,mm,NA,NA,NA,22,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13423",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.42,NA,mm,NA,NA,NA,23,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13424",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.49,NA,mm,NA,NA,NA,24,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13425",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.42,NA,mm,NA,NA,NA,25,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13426",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.91,NA,mm,NA,NA,NA,26,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13427",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.14,NA,mm,NA,NA,NA,27,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13428",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.25,NA,mm,NA,NA,NA,28,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13429",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.68,NA,mm,NA,NA,NA,29,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13430",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.94,NA,mm,NA,NA,NA,30,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13431",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.69,NA,mm,NA,NA,NA,31,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13432",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.05,NA,mm,NA,NA,NA,32,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13433",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.43,NA,mm,NA,NA,NA,33,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13434",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.08,NA,mm,NA,NA,NA,34,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13435",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.81,NA,mm,NA,NA,NA,35,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13436",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.24,NA,mm,NA,NA,NA,36,NA,21.07.2016,NA,female (assumed),adult,Z�rich,47�21_1__N,8�56_6__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13470",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.46,NA,mm,NA,NA,NA,1,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13471",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.96,NA,mm,NA,NA,NA,2,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13472",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.13,NA,mm,NA,NA,NA,3,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13473",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.24,NA,mm,NA,NA,NA,4,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13474",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.27,NA,mm,NA,NA,NA,5,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13475",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.44,NA,mm,NA,NA,NA,6,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13476",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.22,NA,mm,NA,NA,NA,7,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13477",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.66,NA,mm,NA,NA,NA,8,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13478",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.02,NA,mm,NA,NA,NA,9,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13479",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.19,NA,mm,NA,NA,NA,10,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13480",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.76,NA,mm,NA,NA,NA,11,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13481",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.35,NA,mm,NA,NA,NA,12,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13482",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.47,NA,mm,NA,NA,NA,13,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13483",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.12,NA,mm,NA,NA,NA,14,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13484",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.18,NA,mm,NA,NA,NA,15,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13485",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.89,NA,mm,NA,NA,NA,16,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13486",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.12,NA,mm,NA,NA,NA,17,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13487",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.8,NA,mm,NA,NA,NA,18,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13488",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.99,NA,mm,NA,NA,NA,19,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13489",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.18,NA,mm,NA,NA,NA,20,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13490",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.56,NA,mm,NA,NA,NA,21,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13491",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.55,NA,mm,NA,NA,NA,22,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13492",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.53,NA,mm,NA,NA,NA,23,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13493",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.83,NA,mm,NA,NA,NA,24,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13494",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.82,NA,mm,NA,NA,NA,25,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13495",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.93,NA,mm,NA,NA,NA,26,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13496",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.07,NA,mm,NA,NA,NA,27,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13497",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.91,NA,mm,NA,NA,NA,28,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13498",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.38,NA,mm,NA,NA,NA,29,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13499",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.74,NA,mm,NA,NA,NA,30,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13500",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.45,NA,mm,NA,NA,NA,31,NA,28.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13533",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.18,NA,mm,NA,NA,NA,1,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13534",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.52,NA,mm,NA,NA,NA,2,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13535",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.7,NA,mm,NA,NA,NA,3,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13536",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.89,NA,mm,NA,NA,NA,4,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13537",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.42,NA,mm,NA,NA,NA,5,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13538",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.86,NA,mm,NA,NA,NA,6,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13539",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.4,NA,mm,NA,NA,NA,7,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13540",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.09,NA,mm,NA,NA,NA,8,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13541",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.35,NA,mm,NA,NA,NA,9,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13542",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.17,NA,mm,NA,NA,NA,10,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13543",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.89,NA,mm,NA,NA,NA,11,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13544",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.09,NA,mm,NA,NA,NA,12,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13545",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.54,NA,mm,NA,NA,NA,13,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13546",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.69,NA,mm,NA,NA,NA,14,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13547",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.83,NA,mm,NA,NA,NA,15,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13548",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.96,NA,mm,NA,NA,NA,16,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13549",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.38,NA,mm,NA,NA,NA,17,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13550",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.34,NA,mm,NA,NA,NA,18,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13551",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.29,NA,mm,NA,NA,NA,19,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13552",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.17,NA,mm,NA,NA,NA,20,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13553",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.02,NA,mm,NA,NA,NA,21,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13554",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.12,NA,mm,NA,NA,NA,22,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13555",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.84,NA,mm,NA,NA,NA,23,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13556",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.53,NA,mm,NA,NA,NA,24,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13557",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.87,NA,mm,NA,NA,NA,25,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13558",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.06,NA,mm,NA,NA,NA,26,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13559",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.23,NA,mm,NA,NA,NA,27,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13560",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.14,NA,mm,NA,NA,NA,28,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13561",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.49,NA,mm,NA,NA,NA,29,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13562",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.94,NA,mm,NA,NA,NA,30,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13563",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.42,NA,mm,NA,NA,NA,31,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13564",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.88,NA,mm,NA,NA,NA,32,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13565",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.76,NA,mm,NA,NA,NA,33,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13566",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.01,NA,mm,NA,NA,NA,34,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13567",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.35,NA,mm,NA,NA,NA,35,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13568",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.87,NA,mm,NA,NA,NA,36,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13569",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.47,NA,mm,NA,NA,NA,37,NA,27.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13606",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.6,NA,mm,NA,NA,NA,1,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13607",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.89,NA,mm,NA,NA,NA,2,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13608",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.99,NA,mm,NA,NA,NA,3,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13609",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.37,NA,mm,NA,NA,NA,4,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13610",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.37,NA,mm,NA,NA,NA,5,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13611",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,5.72,NA,mm,NA,NA,NA,6,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13612",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.39,NA,mm,NA,NA,NA,7,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13613",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.28,NA,mm,NA,NA,NA,8,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13614",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.29,NA,mm,NA,NA,NA,9,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13615",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.96,NA,mm,NA,NA,NA,10,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13616",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.89,NA,mm,NA,NA,NA,11,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13617",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.31,NA,mm,NA,NA,NA,12,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13618",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.5,NA,mm,NA,NA,NA,13,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13619",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.3,NA,mm,NA,NA,NA,14,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13620",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.65,NA,mm,NA,NA,NA,15,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13621",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.28,NA,mm,NA,NA,NA,16,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13622",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.41,NA,mm,NA,NA,NA,17,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13623",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.67,NA,mm,NA,NA,NA,18,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13624",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.7,NA,mm,NA,NA,NA,19,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13625",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.58,NA,mm,NA,NA,NA,20,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13626",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.09,NA,mm,NA,NA,NA,21,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13627",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.01,NA,mm,NA,NA,NA,22,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13628",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.19,NA,mm,NA,NA,NA,23,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13629",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.19,NA,mm,NA,NA,NA,24,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13630",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.51,NA,mm,NA,NA,NA,25,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13631",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.24,NA,mm,NA,NA,NA,26,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13632",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,27,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13633",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.55,NA,mm,NA,NA,NA,28,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13634",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.38,NA,mm,NA,NA,NA,29,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13635",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.36,NA,mm,NA,NA,NA,30,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13636",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.45,NA,mm,NA,NA,NA,31,NA,19.07.2016,NA,female (assumed),adult,Basel,47�34_N,7�36_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13668",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.75,NA,mm,NA,NA,NA,1,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13669",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.5,NA,mm,NA,NA,NA,2,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13670",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.17,NA,mm,NA,NA,NA,3,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13671",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.85,NA,mm,NA,NA,NA,4,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13672",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.98,NA,mm,NA,NA,NA,5,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13673",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.5,NA,mm,NA,NA,NA,6,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13674",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.49,NA,mm,NA,NA,NA,7,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13675",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.78,NA,mm,NA,NA,NA,8,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13676",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.21,NA,mm,NA,NA,NA,9,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13677",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.41,NA,mm,NA,NA,NA,10,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13678",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.82,NA,mm,NA,NA,NA,11,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13679",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.19,NA,mm,NA,NA,NA,12,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13680",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.41,NA,mm,NA,NA,NA,13,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13681",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.19,NA,mm,NA,NA,NA,14,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13682",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.38,NA,mm,NA,NA,NA,15,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13683",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.64,NA,mm,NA,NA,NA,16,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13684",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.48,NA,mm,NA,NA,NA,17,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13685",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.73,NA,mm,NA,NA,NA,18,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13686",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11.12,NA,mm,NA,NA,NA,19,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13687",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.21,NA,mm,NA,NA,NA,20,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13688",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.2,NA,mm,NA,NA,NA,21,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13689",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.8,NA,mm,NA,NA,NA,22,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13690",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.71,NA,mm,NA,NA,NA,23,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13691",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.09,NA,mm,NA,NA,NA,24,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13692",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.61,NA,mm,NA,NA,NA,25,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13693",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.05,NA,mm,NA,NA,NA,26,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13694",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.99,NA,mm,NA,NA,NA,27,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13695",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.57,NA,mm,NA,NA,NA,28,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13696",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.94,NA,mm,NA,NA,NA,29,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13697",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.13,NA,mm,NA,NA,NA,30,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13698",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.61,NA,mm,NA,NA,NA,31,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13699",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.33,NA,mm,NA,NA,NA,32,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13700",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.86,NA,mm,NA,NA,NA,33,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13701",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.21,NA,mm,NA,NA,NA,34,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13702",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.38,NA,mm,NA,NA,NA,35,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13703",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.26,NA,mm,NA,NA,NA,36,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13704",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.56,NA,mm,NA,NA,NA,37,NA,25.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13743",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.68,NA,mm,NA,NA,NA,1,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13744",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.39,NA,mm,NA,NA,NA,2,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13745",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.26,NA,mm,NA,NA,NA,3,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13746",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.59,NA,mm,NA,NA,NA,4,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13747",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.8,NA,mm,NA,NA,NA,5,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13748",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.14,NA,mm,NA,NA,NA,6,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13749",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,12.12,NA,mm,NA,NA,NA,7,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13750",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.75,NA,mm,NA,NA,NA,8,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13751",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.07,NA,mm,NA,NA,NA,9,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13752",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.86,NA,mm,NA,NA,NA,10,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13753",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.93,NA,mm,NA,NA,NA,11,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13754",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.16,NA,mm,NA,NA,NA,12,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13755",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.56,NA,mm,NA,NA,NA,13,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13756",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.28,NA,mm,NA,NA,NA,14,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13757",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.07,NA,mm,NA,NA,NA,15,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13758",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.93,NA,mm,NA,NA,NA,16,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13759",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.81,NA,mm,NA,NA,NA,17,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13760",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.71,NA,mm,NA,NA,NA,18,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13761",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.38,NA,mm,NA,NA,NA,19,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13762",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.88,NA,mm,NA,NA,NA,20,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13763",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.13,NA,mm,NA,NA,NA,21,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13764",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.29,NA,mm,NA,NA,NA,22,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13765",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.29,NA,mm,NA,NA,NA,23,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13766",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.09,NA,mm,NA,NA,NA,24,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13767",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.94,NA,mm,NA,NA,NA,25,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13768",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.29,NA,mm,NA,NA,NA,26,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13769",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.75,NA,mm,NA,NA,NA,27,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13770",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.49,NA,mm,NA,NA,NA,28,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13771",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.95,NA,mm,NA,NA,NA,29,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13772",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.99,NA,mm,NA,NA,NA,30,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13773",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.06,NA,mm,NA,NA,NA,31,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13774",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.47,NA,mm,NA,NA,NA,32,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13775",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9,NA,mm,NA,NA,NA,33,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13776",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.31,NA,mm,NA,NA,NA,34,NA,23.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13817",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.9,NA,mm,NA,NA,NA,1,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13818",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.75,NA,mm,NA,NA,NA,2,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13819",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.89,NA,mm,NA,NA,NA,3,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13820",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.36,NA,mm,NA,NA,NA,4,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13821",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.85,NA,mm,NA,NA,NA,5,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13822",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.59,NA,mm,NA,NA,NA,6,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13823",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.79,NA,mm,NA,NA,NA,7,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13824",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.62,NA,mm,NA,NA,NA,8,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13825",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.49,NA,mm,NA,NA,NA,9,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13826",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.58,NA,mm,NA,NA,NA,10,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13827",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.79,NA,mm,NA,NA,NA,11,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13828",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.15,NA,mm,NA,NA,NA,12,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13829",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.87,NA,mm,NA,NA,NA,13,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13830",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.18,NA,mm,NA,NA,NA,14,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13831",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.75,NA,mm,NA,NA,NA,15,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13832",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.14,NA,mm,NA,NA,NA,16,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13833",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.02,NA,mm,NA,NA,NA,17,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13834",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.07,NA,mm,NA,NA,NA,18,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13835",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,19,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13836",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.79,NA,mm,NA,NA,NA,20,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13837",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.09,NA,mm,NA,NA,NA,21,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13838",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.51,NA,mm,NA,NA,NA,22,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13839",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.58,NA,mm,NA,NA,NA,23,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13840",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.9,NA,mm,NA,NA,NA,24,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13841",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11.2,NA,mm,NA,NA,NA,25,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13842",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.72,NA,mm,NA,NA,NA,26,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13843",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.62,NA,mm,NA,NA,NA,27,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13844",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.85,NA,mm,NA,NA,NA,28,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13845",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.83,NA,mm,NA,NA,NA,29,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13846",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11.04,NA,mm,NA,NA,NA,30,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13847",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.3,NA,mm,NA,NA,NA,31,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13848",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.23,NA,mm,NA,NA,NA,32,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13849",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.31,NA,mm,NA,NA,NA,33,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13850",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.79,NA,mm,NA,NA,NA,34,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13851",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.95,NA,mm,NA,NA,NA,35,NA,17.07.2016,NA,female (assumed),adult,Basel,47�30_21.43__N,8�3_7.63__E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13890",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.9,NA,mm,NA,NA,NA,1,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13891",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.44,NA,mm,NA,NA,NA,2,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13892",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.13,NA,mm,NA,NA,NA,3,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13893",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.85,NA,mm,NA,NA,NA,4,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13894",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.46,NA,mm,NA,NA,NA,5,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13895",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.46,NA,mm,NA,NA,NA,6,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13896",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.59,NA,mm,NA,NA,NA,7,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13897",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.5,NA,mm,NA,NA,NA,8,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13898",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.76,NA,mm,NA,NA,NA,9,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13899",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.08,NA,mm,NA,NA,NA,10,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13900",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.63,NA,mm,NA,NA,NA,11,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13901",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.61,NA,mm,NA,NA,NA,12,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13902",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.75,NA,mm,NA,NA,NA,13,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13903",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.23,NA,mm,NA,NA,NA,14,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13904",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.41,NA,mm,NA,NA,NA,15,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13905",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.65,NA,mm,NA,NA,NA,16,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13906",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.9,NA,mm,NA,NA,NA,17,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13907",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.8,NA,mm,NA,NA,NA,18,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13908",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,19,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13909",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.41,NA,mm,NA,NA,NA,20,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13910",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.62,NA,mm,NA,NA,NA,21,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13911",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.05,NA,mm,NA,NA,NA,22,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13912",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.05,NA,mm,NA,NA,NA,23,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13913",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.73,NA,mm,NA,NA,NA,24,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13914",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.05,NA,mm,NA,NA,NA,25,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13915",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.37,NA,mm,NA,NA,NA,26,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13916",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.51,NA,mm,NA,NA,NA,27,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13917",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.14,NA,mm,NA,NA,NA,28,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13918",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.4,NA,mm,NA,NA,NA,29,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13919",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,30,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13920",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.2,NA,mm,NA,NA,NA,31,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13921",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11.96,NA,mm,NA,NA,NA,32,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13922",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.28,NA,mm,NA,NA,NA,33,NA,10.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13926",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7,NA,mm,NA,NA,NA,1,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13927",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.4,NA,mm,NA,NA,NA,2,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13928",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.21,NA,mm,NA,NA,NA,3,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13929",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.53,NA,mm,NA,NA,NA,4,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13930",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.97,NA,mm,NA,NA,NA,5,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13931",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.87,NA,mm,NA,NA,NA,6,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13932",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.68,NA,mm,NA,NA,NA,7,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13933",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.93,NA,mm,NA,NA,NA,8,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13934",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.09,NA,mm,NA,NA,NA,9,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13935",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.4,NA,mm,NA,NA,NA,10,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13936",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.3,NA,mm,NA,NA,NA,11,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13937",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.25,NA,mm,NA,NA,NA,12,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13938",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.3,NA,mm,NA,NA,NA,13,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13939",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.45,NA,mm,NA,NA,NA,14,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13940",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,6.93,NA,mm,NA,NA,NA,15,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13941",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.43,NA,mm,NA,NA,NA,16,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13942",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.96,NA,mm,NA,NA,NA,17,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13943",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.24,NA,mm,NA,NA,NA,18,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13944",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.96,NA,mm,NA,NA,NA,19,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13945",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.46,NA,mm,NA,NA,NA,20,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13946",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.84,NA,mm,NA,NA,NA,21,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13947",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.99,NA,mm,NA,NA,NA,22,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13948",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.85,NA,mm,NA,NA,NA,23,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13949",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.94,NA,mm,NA,NA,NA,24,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13950",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.89,NA,mm,NA,NA,NA,25,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13951",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.64,NA,mm,NA,NA,NA,26,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13952",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.27,NA,mm,NA,NA,NA,27,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13953",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.31,NA,mm,NA,NA,NA,28,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13954",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.44,NA,mm,NA,NA,NA,29,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13955",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.89,NA,mm,NA,NA,NA,30,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13956",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.16,NA,mm,NA,NA,NA,31,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13957",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.42,NA,mm,NA,NA,NA,32,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13958",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.96,NA,mm,NA,NA,NA,33,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13959",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.15,NA,mm,NA,NA,NA,34,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13960",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.4,NA,mm,NA,NA,NA,35,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13961",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.87,NA,mm,NA,NA,NA,36,NA,02.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13987",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.78,NA,mm,NA,NA,NA,1,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13988",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.02,NA,mm,NA,NA,NA,2,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13989",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.18,NA,mm,NA,NA,NA,3,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13990",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.67,NA,mm,NA,NA,NA,4,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13991",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.24,NA,mm,NA,NA,NA,5,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13992",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.07,NA,mm,NA,NA,NA,6,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13993",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.9,NA,mm,NA,NA,NA,7,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13994",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.06,NA,mm,NA,NA,NA,8,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13995",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.74,NA,mm,NA,NA,NA,9,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13996",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.68,NA,mm,NA,NA,NA,10,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13997",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.25,NA,mm,NA,NA,NA,11,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13998",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.48,NA,mm,NA,NA,NA,12,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.13999",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.43,NA,mm,NA,NA,NA,13,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14000",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.65,NA,mm,NA,NA,NA,14,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14001",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.02,NA,mm,NA,NA,NA,15,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14002",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.71,NA,mm,NA,NA,NA,16,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14003",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,7.31,NA,mm,NA,NA,NA,17,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14004",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.39,NA,mm,NA,NA,NA,18,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14005",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.75,NA,mm,NA,NA,NA,19,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14006",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.9,NA,mm,NA,NA,NA,20,NA,11.08.2016,NA,female (assumed),adult,Bern,46�57_N,7�27_E,NA,NA,NA,Switzerland,NA,NA,urban
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14025",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.34,NA,mm,NA,NA,NA,1,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14026",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.1,NA,mm,NA,NA,NA,2,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14027",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.96,NA,mm,NA,NA,NA,3,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14028",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.98,NA,mm,NA,NA,NA,4,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14029",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.7,NA,mm,NA,NA,NA,5,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14030",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.68,NA,mm,NA,NA,NA,6,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14031",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.82,NA,mm,NA,NA,NA,7,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14032",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.47,NA,mm,NA,NA,NA,8,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14033",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.13,NA,mm,NA,NA,NA,9,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14034",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.86,NA,mm,NA,NA,NA,10,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14035",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.23,NA,mm,NA,NA,NA,11,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14036",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.45,NA,mm,NA,NA,NA,12,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14037",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11.58,NA,mm,NA,NA,NA,13,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14038",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.25,NA,mm,NA,NA,NA,14,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14039",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.89,NA,mm,NA,NA,NA,15,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14040",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.63,NA,mm,NA,NA,NA,16,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14041",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.97,NA,mm,NA,NA,NA,17,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14042",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.31,NA,mm,NA,NA,NA,18,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14043",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.6,NA,mm,NA,NA,NA,19,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14044",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.3,NA,mm,NA,NA,NA,20,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14045",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.87,NA,mm,NA,NA,NA,21,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14046",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.72,NA,mm,NA,NA,NA,22,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14047",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.89,NA,mm,NA,NA,NA,23,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14048",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.07,NA,mm,NA,NA,NA,24,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14049",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.31,NA,mm,NA,NA,NA,25,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14050",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.68,NA,mm,NA,NA,NA,26,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14051",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.9,NA,mm,NA,NA,NA,27,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14052",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.21,NA,mm,NA,NA,NA,28,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14053",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.31,NA,mm,NA,NA,NA,29,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14054",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.52,NA,mm,NA,NA,NA,30,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14055",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.43,NA,mm,NA,NA,NA,31,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14056",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.45,NA,mm,NA,NA,NA,32,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14057",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.86,NA,mm,NA,NA,NA,33,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14058",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.18,NA,mm,NA,NA,NA,34,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14059",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.81,NA,mm,NA,NA,NA,35,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14060",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.46,NA,mm,NA,NA,NA,36,NA,12.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14076",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.65,NA,mm,NA,NA,NA,1,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14077",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.86,NA,mm,NA,NA,NA,2,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14078",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.14,NA,mm,NA,NA,NA,3,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14079",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.57,NA,mm,NA,NA,NA,4,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14080",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11,NA,mm,NA,NA,NA,5,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14081",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.51,NA,mm,NA,NA,NA,6,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14082",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,8.97,NA,mm,NA,NA,NA,7,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14083",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.95,NA,mm,NA,NA,NA,8,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14084",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.47,NA,mm,NA,NA,NA,9,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14085",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,9.81,NA,mm,NA,NA,NA,10,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14086",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,10.66,NA,mm,NA,NA,NA,11,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Eggenberger, H., Frey, D., Pellissier, L., Ghazoul, J., Fontana, S., & Moretti, M. (2019). Urban bumblebees are smaller and more phenotypically diverse than their rural counterparts. Journal of Animal Ecology, 88(10), 1522�1533. https://doi.org/10.1111/1365-2656.14087",https://doi.org/10.1111/1365-2656.13051,Bombus pascuorum,gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The proboscis length was defined as the length of the prementum plus the glossa. The proboscis from every individual was carefully dissected, the glossa fully straightened and accurately measured from the base of the prementum to the distal point of the labellum as described in Harder (1982).",NA,single observation,11.17,NA,mm,NA,NA,NA,12,NA,13.08.2016,NA,female (assumed),adult,Bern,46�56_N,7�12_E,NA,NA,NA,Switzerland,NA,NA,rural
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus pascuorum (Scopoli 1763),gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.02,mean,mm,423,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus pascuorum (Scopoli 1763),gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.02,mean,mm,423,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus pascuorum (Scopoli 1763),gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.02,mean,mm,328,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus pascuorum (SCOPOLI 1763),gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.24,mean,mm,17,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Bombus pascuorum (SCOPOLI 1763),gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.24,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus pascuorum (Scopoli 1763),gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,8.1,mean,mm,21,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus pascuorum (SCOPOLI 1763),gbif:1340405,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.61,mean,mm,17,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Bombus pascuorum (Scopoli, 1763)",gbif:1340405,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,14.5,mean,mm,13,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus pascuorum (Scopoli, 1763)",gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.6,mean,mm,454,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus pascuorum (Scopoli, 1763)",gbif:1340405,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.13,mean,mm,12,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; France; Romania,NA,NA,NA
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Bombus pauloensis Friese,gbif:9984381,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,15.75,mean,mm,4,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Bombus pauloensis Friese, 1913",gbif:9984381,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.199,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Bombus pauloensis Friese, 1913",gbif:9984381,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,8.447,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus pensylvanicus,gbif:1340416,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,25.7,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus pensylvanicus,gbif:1340416,body size,front wing length,NA,NA,NA,species,20.1,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus pensylvanicus,gbif:1340416,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Bombus pensylvanicus,gbif:1340416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,6,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Bombus pensylvanicus,gbif:1340416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.015,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Bombus pensylvanicus,gbif:1340416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,5.916,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus pratorum,gbif:1340305,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,20.47,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus pratorum,gbif:1340305,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.97,mean,mm,NA,0.31,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Bombus pratorum,gbif:1340305,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,4.6,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus pratorum,gbif:1340305,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.61,mean,mm,43,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus pratorum,gbif:1340305,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.56,mean,mm,NA,0.32,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus pratorum,gbif:1340305,body size,thorax length,NA,mean thorax length,NA,species,8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus pratorum,gbif:1340305,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus pratorum,gbif:1340305,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus pratorum (Linnaeus 1761),gbif:1340305,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,21,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus pratorum (Linnaeus 1761),gbif:1340305,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,21,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus pratorum (Linnaeus 1761),gbif:1340305,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,36,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus pratorum (Linnaeus 1761),gbif:1340305,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,7.29,mean,mm,590,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus pratorum (Linnaeus, 1761)",gbif:1340305,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.37,mean,mm,12,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus pratorum (Linnaeus, 1761)",gbif:1340305,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.75,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus Psithyrus sp,gbif:1340278,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,20.09,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus pyrenaeus,gbif:1340533,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.2,mean,mm,NA,0.56,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus pyrenaeus,gbif:1340533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.73,mean,mm,NA,0.15,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Bombus ruderarius,gbif:1340533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,4.73,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus ruderarius,gbif:1340533,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,7.4,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus ruderarius,gbif:1340533,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.8,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus ruderarius (Müller 1765),gbif:1340533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.42,mean,mm,9,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus ruderarius (Müller 1765),gbif:1340533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.42,mean,mm,9,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus ruderarius (Müller 1765),gbif:1340533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.42,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus ruderarius (Müller 1765),gbif:1340533,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,6.93,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus ruderatus,gbif:1340383,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4,mean,mm,10,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus rufocinctus,gbif:1340347,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus rufocinctus,gbif:1340347,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.340345335,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus rupestris,gbif:1340344,body size,thorax length,NA,mean thorax length,NA,species,22.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus rupestris (Fabricius, 1793)",gbif:1340344,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.53,mean,mm,10,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus sichelii,gbif:1340500,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.26,mean,mm,NA,0.07,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus sichelii,gbif:1340500,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.58,mean,mm,NA,0.33,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus soroeensis,gbif:1340444,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,21.72,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus soroeensis,gbif:1340444,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.02,mean,mm,NA,0.24,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus soroeensis,gbif:1340444,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5,mean,mm,NA,0.24,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus soroeensis,gbif:1340444,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.9,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus soroeensis,gbif:1340444,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus soroeensis (Fabricius, 1777)",gbif:1340444,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.4,mean,mm,4,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus sp1,gbif:1340278,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,7.1,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus sp1,gbif:1340278,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus subterraneus,gbif:1340422,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,24.67,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus subterraneus (Linnaeus 1758),gbif:1340422,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus subterraneus (Linnaeus 1758),gbif:1340422,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus subterraneus (Linnaeus 1758),gbif:1340422,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,8.06,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus sylvarum,gbif:1340342,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,19.76,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Bombus sylvarum,gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,4.44,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus sylvarum,gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.44,mean,mm,9,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus sylvarum,gbif:1340342,body size,thorax length,NA,mean thorax length,NA,species,11.2,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus sylvarum,gbif:1340342,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,9.5,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Bombus sylvarum,gbif:1340342,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.4,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus sylvarum (Linnaeus 1761),gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,21,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus sylvarum (Linnaeus 1761),gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,21,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus sylvarum (Linnaeus 1761),gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,10,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus sylvarum (LINNAEUS 1761),gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.03,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Bombus sylvarum (LINNAEUS 1761),gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.03,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus sylvarum (Linnaeus 1761),gbif:1340342,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,6.51,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus sylvarum (LINNAEUS 1761),gbif:1340342,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.19,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Bombus sylvarum (Linnaeus, 1761)",gbif:1340342,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,14.5,mean,mm,3,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus sylvarum (Linnaeus, 1761)",gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,2.64,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus sylvarum (Linnaeus, 1761)",gbif:1340342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.32,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus sylvestris,gbif:1340333,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.27,mean,mm,11,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Bombus sylvestris (Lepeletier, 1832)",gbif:1340333,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.73,mean,mm,9,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Bombus sylvicola,gbif:1340525,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.168841173,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus ternarius,gbif:1340516,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus ternarius,gbif:1340516,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,2.91,mean,mm,2,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus ternarius,gbif:1340516,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,3.43,mean,mm,3,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus terr/luc,gbif:1340278,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,19.97,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus terrestris,gbif:1340503,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,individual,21.86,single observation,mm,1,NA,std error,NA,NA,April and June over three field seasons (2014–2016),NA,queen,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus terrestris,gbif:1340503,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,14.23,mean,mm,6,0.55,std error,NA,NA,April and June over three field seasons (2014–2016),NA,worker,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus terrestris,gbif:1340503,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,individual,90%,single observation,NA,1,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,queen,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus terrestris,gbif:1340503,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,90%,mean,NA,6,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,worker,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus terrestris,gbif:1340503,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.97,mean,mm,NA,0.22,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Bombus terrestris,gbif:1340503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,5.7,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus terrestris,gbif:1340503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.15,mean,mm,341,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus terrestris,gbif:1340503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.94,mean,mm,NA,0.35,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus terrestris,gbif:1340503,body size,thorax length,NA,mean thorax length,NA,species,11,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Bombus terrestris (LINNAEUS 1758),gbif:1340503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.66,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus terrestris (Linnaeus 1758) / Bombus lucorum (Linnaeus 1761),gbif:1340278,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.9,mean,mm,590,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus terrestris (Linnaeus 1758) / Bombus lucorum (Linnaeus 1761),gbif:1340278,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.9,mean,mm,590,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Bombus terrestris (Linnaeus 1758) / Bombus lucorum (Linnaeus 1761),gbif:1340278,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,7.87,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Bombus terrestris (Linnaeus 1758) complex,gbif:1340503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.9,mean,mm,399,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Bombus terrestris (Linnaeus, 1758)",gbif:1340503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.82,mean,mm,23,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Bombus terrestris (Linnaeus, 1761)",gbif:1340503,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,16.6,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus terrestris / B. lucorum,gbif:1340278,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.66,mean,mm,40,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Bombus terrestris / B. lucorum,gbif:1340278,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.42,mean,mm,40,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,Bombus terrestris agg.,gbif:1340503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.93,mean,mm,299,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus terricola,gbif:1340503,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11.5,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Bombus transversalis,gbif:1340289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.7,mean,mm,40,NA,NA,NA,14,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Bombus vagans,gbif:1340472,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11.2,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Bombus vagans,gbif:1340472,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,3.39,mean,mm,10,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Bombus vagans,gbif:1340472,body size,undefined,NA,NA,NA,species,10.75,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus vestalis,gbif:1340418,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,individual,21.86,single observation,mm,1,NA,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Bombus vestalis,gbif:1340418,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,individual,90%,single observation,NA,1,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Bombus vestalis,gbif:1340418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.68,mean,mm,16,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Bombus vestalis,gbif:1340418,body size,thorax length,NA,mean thorax length,NA,species,21,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Bombus vosnesenskii,gbif:1340436,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.55,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Bombus vosnesenskii,gbif:1340436,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.53,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Bombus vosnesenskii,gbif:1340436,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.14,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus wurflenii,gbif:1340358,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,1.19,mean,mm,NA,0.26,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Bombus wurflenii,gbif:1340358,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.98,mean,mm,NA,0.59,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Bombus_bimaculatus,gbif:1340382,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.544,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Bombus_bimaculatus,gbif:1340382,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Bombus_citrinus,gbif:1340312,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Bombus_grisecollis,gbif:1340409,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.312,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Bombus_griseocollis,gbif:1340409,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Bombus_impatiens,gbif:1340350,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.448,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Bombus_impatiens,gbif:1340350,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.8,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Bombus_pensylvanicus,gbif:1340416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Bombus_perplexus,gbif:1340406,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.466666667,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Brachynomada annectens,gbif:1342656,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Brachynomada annectens,gbif:1342656,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Braunsapis cupulifera,gbif:1342589,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.96,mean,mm,NA,NA,NA,B04,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Braunsapis cupulifera,gbif:1342589,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.04,mean,mm,NA,NA,NA,B04,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Braunsapis hewitti,gbif:1342575,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.13,mean,mm,NA,NA,NA,B05,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Braunsapis hewitti,gbif:1342575,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.4,mean,mm,NA,NA,NA,B05,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Braunsapis Michener,gbif:1342546,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.14,mean,mm,34,0.005,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Braunsapis puangensis,gbif:1342597,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.96,mean,mm,NA,NA,NA,B06,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Braunsapis puangensis,gbif:1342597,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.05,mean,mm,NA,NA,NA,B06,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Brausapis sp.,gbif:1342546,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,5.53,mean,mm,NA,0.19,std error,3,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Brausapis sp.,gbif:1342546,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,3.69,mean,mm,NA,0.39,std error,3,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Brausapis sp.,gbif:1342546,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.49,mean,mm,NA,0.16,std error,3,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Brausapis sp.,gbif:1342546,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,3.16,mean,mm,NA,0.32,std error,3,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Brausapis sp.,gbif:1342546,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,2.61,mean,mm,NA,0.16,std error,3,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.AMERICANA,gbif:1348583,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.07,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2137,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.ANDRENIFORMIS,gbif:5042947,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2138,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.CALCARATA,gbif:5039997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.91,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2084,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.CAMPANULARUM,gbif:1334499,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2125,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.DUPLA,gbif:5039771,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2086,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.MIKMAQUI,gbif:8329635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.81,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2085,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.OCTODENTATA,gbif:11989800,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.87,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2105,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.PHILADELPHI,gbif:1334505,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.47,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2124,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.PORTERAE,gbif:1338779,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.76,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2106,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.RAPUNCULI,gbif:1334493,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.17,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2123,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,C.SIMULANS,gbif:1348551,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.55,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2136,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Caenaugochlora sp. 1,gbif:1352892,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.96,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis 2,gbif:1356743,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.501,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Calliopsis andreniformis,gbif:5042947,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,1.22,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Calliopsis andreniformis,gbif:5042947,body size,undefined,NA,NA,NA,species,6.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Calliopsis andreniforms,gbif:5042947,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,6.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Calliopsis andreniforms,gbif:5042947,body size,front wing length,NA,NA,NA,individual,4.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Calliopsis andreniforms,gbif:5042947,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Calliopsis andreniforms,gbif:5042947,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis anomoptera,gbif:5042936,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.006,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Calliopsis fracta,gbif:5042974,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis meliloti,gbif:5042975,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.421,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis meliloti,gbif:5042975,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.289,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Calliopsis mellipes,gbif:5042959,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.81,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Calliopsis mellipes,gbif:5042959,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.87,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Calliopsis nebraskensis,gbif:5042965,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.12,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis nebraskensis?,gbif:5042965,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Calliopsis obscurella,gbif:5042937,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.09,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Calliopsis obscurella,gbif:5042937,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Calliopsis pugionis,gbif:5042976,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.83,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Calliopsis pugionis,gbif:5042976,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Calliopsis rhophila,gbif:1356743,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Calliopsis rhophila,gbif:1356743,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.67,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult,San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis rozeni,gbif:5042994,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis rozeni,gbif:5042994,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis timberlakei,gbif:1356743,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.587,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis verbenae,gbif:5042995,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis verbenae,gbif:5042995,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis verbenae,gbif:5042995,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Calliopsis verbenae,gbif:5042995,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Calliopsis_andreniformis,gbif:5042947,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Caupolicana yarrowi,gbif:1350363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.788,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Celetrigona longicornis (Friese, 1903)",gbif:8652747,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean ,mm,5,NA,NA,NA,sp02,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Centris (Hemisiella) nitida,gbif:1342946,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.11,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Centris (Melacentris) sp.,gbif:1342796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.633,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Centris (Melacentris) sp.,gbif:1342796,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,11.197,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris aenea,gbif:1342829,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.7,mean,mm,144,NA,NA,NA,15,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris americana,gbif:1342803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,8.4,mean,mm,18,NA,NA,NA,16,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Centris atripes,gbif:1342977,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.204,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Centris caesalpiniae,gbif:1342961,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.18,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Centris caesalpiniae,gbif:1342961,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.83,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Centris caesalpiniae,gbif:1342961,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris dentata,gbif:1342887,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.5,mean,mm,10,NA,NA,NA,17,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris denudans,gbif:1342966,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7,mean,mm,20,NA,NA,NA,18,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris dorsata,gbif:1342909,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.76,mean,mm,14,NA,NA,NA,19,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris ferruginea,gbif:1342846,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.75,mean,mm,11,NA,NA,NA,20,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris flavifrons,gbif:1342974,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.52,mean,mm,80,NA,NA,NA,21,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris fuscata,gbif:1342932,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.76,mean,mm,135,NA,NA,NA,22,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Centris lanosa,gbif:1342798,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.965,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris longimana,gbif:1343004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.24,mean,mm,33,NA,NA,NA,23,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris lutea,gbif:1342996,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.38,mean,mm,35,NA,NA,NA,24,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris maranhensis,gbif:1342822,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.5,mean,mm,16,NA,NA,NA,25,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris nobilis,gbif:1342840,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,8.1,mean,mm,14,NA,NA,NA,26,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris obsoleta,gbif:1342926,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.48,mean,mm,40,NA,NA,NA,27,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris plumipes,gbif:1342906,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.85,mean,mm,3,NA,NA,NA,28,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris poecila,gbif:1342892,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.34,mean,mm,15,NA,NA,NA,29,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris quadrimaculata,gbif:1342999,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.8,mean,mm,9,NA,NA,NA,30,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris rhodoprocta,gbif:1342959,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3,mean,mm,135,NA,NA,NA,31,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris scopipes,gbif:1342895,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.7,mean,mm,29,NA,NA,NA,32,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Centris similis (Fabricius, 1804) ",gbif:1342823,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.683,NA,mm,2a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Centris similis (Fabricius, 1804) ",gbif:1342823,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,11.292,NA,mm,2a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Centris sp. 1,gbif:1342796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.97,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Centris sp. 2,gbif:1342796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.81,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Centris sp. 3,gbif:1342796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.45,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Centris sp. 4,gbif:1342796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.69,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris tarsata,gbif:1343011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.7,mean,mm,233,NA,NA,NA,33,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris terminata,gbif:1342806,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.8,mean,mm,11,NA,NA,NA,34,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris trigonoides,gbif:1342978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.98,mean,mm,110,NA,NA,NA,35,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris varia,gbif:1342916,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.2,mean,mm,58,NA,NA,NA,36,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Centris vittata,gbif:1342944,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.3,mean,mm,24,NA,NA,NA,37,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Cephalotrigona capitata,gbif:1340164,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,40,NA,NA,NA,38,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Cephalotrigona capitata (Smith, 1854)",gbif:1340164,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean ,mm,5,NA,NA,NA,sp03,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Cephalotrigona capitata (Smith, 1854)",gbif:1340164,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.116,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Cephalotrigona capitata (Smith, 1854)",gbif:1340164,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,4.375,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Cephalotrigona femorata,gbif:1340163,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.38,mean,mm,27,NA,NA,NA,39,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratalictus sp.  ,gbif:1351688,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,3.486,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratalictus sp.  ,gbif:1351688,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,2.157,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Ceratina (Ceratina) Latreille,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.14,single observation,mm,NA,NA,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratina (Ceratinula) sp.01,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.676,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratina (Ceratinula) sp.01,gbif:1341198,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.997,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratina (Ceratinula) sp.02,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.67,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratina (Ceratinula) sp.02,gbif:1341198,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.969,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Ceratina (Megaceratina) Hirashima,gbif:4298450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.12,single observation,mm,NA,NA,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Ceratina (Protopithitis) Hirashima,gbif:4672813,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.17,mean,mm,2,0.013,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Ceratina (Zadontomerus) nautlana,gbif:5039962,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.13,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ceratina acantha,gbif:5039859,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.15,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ceratina acantha,gbif:5039859,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ceratina acantha,gbif:5039859,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.6,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ceratina arizonensis,gbif:5039767,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.85,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ceratina arizonensis,gbif:5039767,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.63,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ceratina arizonensis,gbif:5039767,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.36,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina calcarata,gbif:5039997,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina calcarata,gbif:5039997,body size,front wing length,NA,NA,NA,species,4.7,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina calcarata,gbif:5039997,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina calcarata,gbif:5039997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.5,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Ceratina calcarata,gbif:5039997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.42,mean,mm,5,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Ceratina calcarata,gbif:5039997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.27,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Ceratina calcarata,gbif:5039997,body size,undefined,NA,NA,NA,species,6.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Ceratina callosa,gbif:5039954,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Ceratina chalybea,gbif:5039844,body size,thorax length,NA,mean thorax length,NA,species,8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult,the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Ceratina chalybea CHEVRIER 1873,gbif:5039844,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.83,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Ceratina chalybea CHEVRIER 1873,gbif:5039844,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.83,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Ceratina chalybea CHEVRIER 1873,gbif:5039844,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.82,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Ceratina chalybea Chevrier, 1872",gbif:5039844,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.83,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Ceratina compacta,gbif:5040009,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.66,mean,mm,NA,NA,NA,B07,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Ceratina compacta,gbif:5040009,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.47,mean,mm,NA,NA,NA,B07,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Ceratina cucurbitina,gbif:5039868,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.45,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Ceratina cucurbitina,gbif:5039868,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.45,mean,mm,91,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Ceratina cucurbitina (ROSSI 1792),gbif:5039868,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.2,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Ceratina cucurbitina (ROSSI 1792),gbif:5039868,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.53,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Ceratina cucurbitina (Rossi, 1792)",gbif:5039868,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8,mean,mm,9,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Ceratina cyanea,gbif:5039824,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.39,mean,mm,41,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Ceratina cyanea,gbif:5039824,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,23,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Ceratina cyanea,gbif:5039824,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Ceratina cyanea,gbif:5039824,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.12,mean,mm,NA,NA,NA,23,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Ceratina cyanea (KIRBY 1802),gbif:5039824,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.27,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Ceratina cyanea (KIRBY 1802),gbif:5039824,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.27,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Ceratina cyanea (KIRBY 1802),gbif:5039824,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.68,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Ceratina cyanea (Kirby, 1802)",gbif:5039824,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7,mean,mm,14,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Ceratina cyanea (Kirby, 1802)",gbif:5039824,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.29,mean,mm,8,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Ceratina cyanea (Kirby, 1802)",gbif:5039824,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.26,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Austria; France,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ceratina dallatorreana,gbif:5039914,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.29,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Ceratina dallatorreana Friese, 1896",gbif:5039914,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,5.5,mean,mm,10,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Ceratina dalltorreana Friese, 1896",gbif:5039914,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.99,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Ceratina dentipes,gbif:5040036,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.92,mean,mm,NA,NA,NA,B08,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Ceratina dentipes,gbif:5040036,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.96,mean,mm,NA,NA,NA,B08,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Ceratina dentiventris Gerstäcker, 1869",gbif:5040019,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.5,mean,mm,10,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina dupla,gbif:5039771,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.3,mean,mm,23,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina dupla,gbif:5039771,body size,front wing length,NA,NA,NA,species,4.3,mean,mm,23,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina dupla,gbif:5039771,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,23,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina dupla,gbif:5039771,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.4,mean,mm,23,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Ceratina dupla,gbif:5039771,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.8,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Ceratina flavipes,gbif:5040088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.71,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Ceratina japonica,gbif:5039925,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.22,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina mikmaqi,gbif:8329635,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.8,mean,mm,16,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina mikmaqi,gbif:8329635,body size,front wing length,NA,NA,NA,species,4.7,mean,mm,16,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina mikmaqi,gbif:8329635,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,16,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina mikmaqi,gbif:8329635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.4,mean,mm,16,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Ceratina mikmaqi,gbif:8329635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.53,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Ceratina mikmaqi,gbif:8329635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.17,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Ceratina mikmaqi,gbif:8329635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.27,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Ceratina mikmaqi,gbif:8329635,body size,undefined,NA,NA,NA,species,7,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ceratina nanula,gbif:5039980,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ceratina nanula,gbif:5039980,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ceratina nanula,gbif:5039980,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.178,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Ceratina nanula,gbif:5039980,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.996,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ceratina nanula,gbif:5039980,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.37,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Ceratina nanula,gbif:5039980,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.106782065,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Ceratina nigrolabiata FRIESE 1896,gbif:5040045,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.33,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Ceratina nigrolabiata FRIESE 1896,gbif:5040045,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.33,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Ceratina nigrolabiata FRIESE 1896,gbif:5040045,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.8,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Ceratina nigrolabiata Friese, 1896",gbif:5040045,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.36,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Ceratina okinawana,gbif:5039939,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.41,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Ceratina parvula Smith, 1854",gbif:5039790,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,3.5,mean,mm,4,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ceratina punctigena,gbif:7637878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.62,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ceratina punctigena,gbif:7637878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.81,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Ceratina punctigena,gbif:7637878,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.76,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ceratina sequoiae,gbif:5040050,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Ceratina smaragdula,gbif:5040047,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.86,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Ceratina sp,gbif:1341198,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.28,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Ceratina sp,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.35,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Ceratina sp.,gbif:1341198,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,7.62,mean,mm,NA,0.13,std error,16,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Ceratina sp.,gbif:1341198,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,3.76,mean,mm,NA,0.11,std error,16,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ceratina sp.,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.98,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Ceratina sp.,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.76,mean,mm,NA,0.06,std error,16,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Ceratina sp.,gbif:1341198,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,3.63,mean,mm,NA,0.05,std error,16,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Ceratina sp.,gbif:1341198,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,4.98,mean,mm,NA,0.18,std error,16,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Ceratina sp. 2,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Ceratina sp. 3,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.07,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratina sp.03  ,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.353,NA,mm,3,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratina sp.03  ,gbif:1341198,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.265,NA,mm,3,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratina sp.04 ,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.222,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Ceratina sp.04 ,gbif:1341198,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.691,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Ceratina spp,gbif:1341198,body size,undefined,NA,NA,NA,species,7,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina strenua,gbif:5040018,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.7,mean,mm,25,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina strenua,gbif:5040018,body size,front wing length,NA,NA,NA,species,3.9,mean,mm,25,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina strenua,gbif:5040018,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,25,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Ceratina strenua,gbif:5040018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.1,mean,mm,25,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Ceratina strenua,gbif:5040018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.93,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Ceratina strenua,gbif:5040018,body size,undefined,NA,NA,NA,species,5.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Ceratina tejonensis,gbif:5040002,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Ceratina tropica,gbif:5040080,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.47,mean,mm,NA,NA,NA,B09,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Ceratina tropica,gbif:5040080,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.08,mean,mm,NA,NA,NA,B09,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Ceratina_calcarata,gbif:5039997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46125,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Ceratina_calcarata,gbif:5039997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Ceratina_cockerelli,gbif:5039997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Ceratina_dupla,gbif:5039771,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Ceratina_floridana,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Ceratina_mikmaqi,gbif:8329635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Ceratina_sp,gbif:1341198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Ceratina_strenua,gbif:5040018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Ceylalictus variegatus,gbif:1352694,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.67,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Chelostoma californicum,gbif:1334509,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Chelostoma californicum,gbif:1334509,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.84,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Chelostoma campanularum,gbif:1334499,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.09,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Chelostoma campanularum,gbif:1334499,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.93,mean,mm,NA,0.01,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Chelostoma campanularum,gbif:1334499,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.","We obtained measures of female species specific ITDs from Sydenham et al. (2015) and from specimens in our collected material. We supplemented the ITD measures using specimens from the Natural History Museum in Oslo, Norway, to obtain a mean of minimum five specimens per species. The ITD was rounded to the nearest mm to account for the intraspecific variation in sizes.",species,1,mean,mm,NA,NA,NA,24,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Chelostoma campanularum,gbif:1334499,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.13,mean,mm,NA,NA,NA,24,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Chelostoma campanularum (Kirby, 1802)",gbif:1334499,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6,mean,mm,4,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Chelostoma campanularum (Kirby, 1802)",gbif:1334499,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,0.93,mean,mm,10,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Chelostoma florisomne,gbif:1334527,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.44,mean,mm,NA,0.13,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Chelostoma florisomne,gbif:1334527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.79,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Chelostoma florisomne,gbif:1334527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.79,mean,mm,40,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Chelostoma florisomne,gbif:1334527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.74,mean,mm,NA,0.1,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Chelostoma florisomne,gbif:1334527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,25,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Chelostoma florisomne,gbif:1334527,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.87,mean,mm,NA,NA,NA,25,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Chelostoma florisomne (Linnaeus 1758),gbif:1334527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.05,mean,mm,4,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Chelostoma florisomne (Linnaeus, 1758)",gbif:1334527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.62,mean,mm,2,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Chelostoma florisomne (Linnaeus, 1758)",gbif:1334527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.57,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Chelostoma phaceliae,gbif:1334516,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.08,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Chelostoma phaceliae,gbif:1334516,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.09,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Chelostoma phaceliae,gbif:1334516,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.03,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Chelostoma philadelphi,gbif:1334505,body size,undefined,NA,NA,NA,species,8,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Chelostoma proximum,gbif:1334525,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.6,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Chelostoma rapunculi,gbif:1334493,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.63,mean,mm,13,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Chelostoma rapunculi (Lepeletier 1841),gbif:1334493,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.65,mean,mm,2,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Chelostoma rapunculi (Lepeletier, 1841)",gbif:1334493,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,9,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Chelostoma rapunculi (Lepeletier, 1841)",gbif:1334493,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.59,mean,mm,17,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Chelostoma_philadelphi,gbif:1334505,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Chilicola sp. 1,gbif:1350112,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.04,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Coelioxys (Acrocoelioxys) laevigata Smith, 1854",gbif:1338471,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,2.633,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Coelioxys (Acrocoelioxys) laevigata Smith, 1854",gbif:1338471,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,4.737,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Coelioxys (Acrocoelioxys) otomita Cresson, 1878",gbif:1338582,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,2.9,NA,mm,2a,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Coelioxys (Acrocoelioxys) otomita Cresson, 1878",gbif:1338582,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,4.322,NA,mm,2a,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Coelioxys (Acrocoelioxys) tolteca Cresson, 1878",gbif:1338513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,2.177,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Coelioxys (Acrocoelioxys) tolteca Cresson, 1878",gbif:1338513,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,3.947,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Coelioxys alternata,gbif:1338354,body size,undefined,NA,NA,NA,species,13,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Coelioxys clypeata,gbif:1338416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,13,NA,NA,NA,40,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Coelioxys hirsutissima,gbif:1338825,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.075,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Coelioxys hunteri,gbif:1338753,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.67,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Coelioxys mesae,gbif:1338538,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.491,mean,mm,NA,NA,NA,NA,NA,2006,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Coelioxys quadridentata,gbif:12091433,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.13,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Coelioxys sp.,gbif:1338333,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,7.28,mean,mm,NA,NA,std error,13,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Coelioxys sp.,gbif:1338333,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,3.1,mean,mm,NA,NA,std error,13,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Coelioxys sp.,gbif:1338333,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.71,mean,mm,NA,NA,std error,13,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Coelioxys sp.,gbif:1338333,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,3.71,mean,mm,NA,NA,std error,13,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Coelioxys sp.,gbif:1338333,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,3.13,mean,mm,NA,NA,std error,13,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Coelioxys tolteca,gbif:1338513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.63,mean,mm,18,NA,NA,NA,41,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Coelioxys_octodentata,gbif:1338333,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Coelioxys_sayi,gbif:1338621,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes birkmanni,gbif:1348741,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.397,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes birkmanni,gbif:1348741,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.441,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes birkmanni,gbif:1348741,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.56,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes compactus,gbif:1348683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.143,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Colletes compactus,gbif:1348683,body size,undefined,NA,NA,NA,species,12,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Colletes consors,gbif:1348670,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.295454459,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes covilleae,gbif:1348729,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.348,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Colletes cunicularius,gbif:1348691,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,3.5,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Colletes cunicularius,gbif:1348691,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.57,mean,mm,22,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Colletes cunicularius,gbif:1348691,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4,mean,mm,NA,NA,NA,26,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Colletes cunicularius,gbif:1348691,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.64,mean,mm,NA,NA,NA,26,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Colletes cunicularius (Linnaeus, 1761)",gbif:1348691,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.41,mean,mm,4,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Colletes daviesanus,gbif:1348620,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.46,mean,mm,18,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Colletes daviesanus,gbif:1348620,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,27,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Colletes daviesanus,gbif:1348620,body size,thorax length,NA,mean thorax length,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Colletes daviesanus,gbif:1348620,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.25,mean,mm,NA,NA,NA,27,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Colletes daviesanus Smith 1846,gbif:1348620,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,2,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Colletes daviesanus Smith, 1846",gbif:1348620,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,2.25,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Colletes fodiens,gbif:11033848,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Colletes gallicus,gbif:1348616,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.88,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Colletes hederae,gbif:1348914,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.23,mean,mm,23,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Colletes kincaidii,gbif:1348598,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,2.57,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Colletes kincaidii,gbif:1348598,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.454545363,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Colletes marginatus,gbif:1348792,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Colletes nigrifrons,gbif:1348898,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.915253431,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Colletes petropolitanus,gbif:1348548,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,11,NA,NA,NA,42,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes phaceliae,gbif:1348538,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.308,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes phaceliae,gbif:1348538,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.072,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Colletes rugicollis Friese, 1900  ",gbif:1348564,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.636,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Colletes rugicollis Friese, 1900  ",gbif:1348564,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.181,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes salicicola,gbif:1348630,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.224,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes salicicola,gbif:1348630,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.131,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes salicicola,gbif:1348630,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes scopiventer,gbif:1348522,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes scopiventer,gbif:1348522,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes scopiventer,gbif:1348522,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Colletes similis,gbif:1348950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.37,mean,mm,9,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Colletes sucinctus,gbif:1348704,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,28,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Colletes sucinctus,gbif:1348704,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.47,mean,mm,NA,NA,NA,28,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Colletes wootoni,gbif:1348774,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes wootoni,gbif:1348774,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.313,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes wootoni,gbif:1348774,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.55,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Colletes wootoni,gbif:1348774,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Colletes wootoni,gbif:1348774,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.93,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Colletes_inaequalis,gbif:1348821,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.878,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Colletes_nudus,gbif:1348831,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Colletes_thoracicus,gbif:1348600,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Conanthalictus bakeri,gbif:1350885,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Conanthalictus bakeri,gbif:1350885,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.42,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Conanthalictus conanthi,gbif:1350890,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.559,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Conanthalictus conanthi,gbif:1350890,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.63,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Conanthalictus conanthi,gbif:1350890,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.56,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Curvinomia sp.,gbif:4680339,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,10.18,mean,mm,NA,0.32,std error,9,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Curvinomia sp.,gbif:4680339,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,5.35,mean,mm,NA,0.37,std error,9,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Curvinomia sp.,gbif:4680339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,2.67,mean,mm,NA,0.1,std error,9,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Curvinomia sp.,gbif:4680339,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,5.7,mean,mm,NA,0.34,std error,9,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Curvinomia sp.,gbif:4680339,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,7.42,mean,mm,NA,0.08,std error,9,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Dasypoda hirtipes,gbif:1345858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.7,mean,mm,46,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Dasypoda hirtipes (Fabricius 1793),gbif:1345858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.9,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Dasypoda hirtipes (Fabricius 1793),gbif:1345858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.9,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Dasypoda hirtipes (Fabricius 1793),gbif:1345858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.9,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Dasypoda hirtipes (FABRICIUS 1793),gbif:1345858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,3.17,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Dasypoda hirtipes (FABRICIUS 1793),gbif:1345858,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,6.47,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Dasypoda hirtipes (Fabricius, 1793)",gbif:1345858,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,14,mean,mm,5,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.24,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.24,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.98,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.26,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.39,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.23,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.7,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.49,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.04,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.04,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.07,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.02,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.76,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.23,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.07,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.21,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.26,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.3,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.95,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.14,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.17,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.91,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.87,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.17,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.04,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.07,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.3,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.14,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.23,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.98,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.17,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.67,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.61,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.28,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.21,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.68,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.71,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.36,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.24,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.76,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.36,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.35,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.07,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.54,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.39,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.14,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.34,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.31,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.39,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.44,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.16,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.34,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.02,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.43,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.17,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.91,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.91,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.98,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.14,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia australis,gbif:1341161,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia australis,gbif:1341161,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.59,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Diadasia bituberculata,gbif:1341145,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia bituberculata,gbif:1341145,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.44,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia bituberculata,gbif:1341145,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.97,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Diadasia consociata,gbif:1341132,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.85,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.29,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.21,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.21,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.29,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.18,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.17,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.2,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.25,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.17,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.08,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.06,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.21,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.06,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia diminuta,gbif:1341167,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.02,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia diminuta,gbif:1341167,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.78,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Diadasia enavata,gbif:1341135,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.74,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia enavata,gbif:1341135,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.836,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia laticauda,gbif:1341172,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.49,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia laticauda,gbif:1341172,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia martialis,gbif:1341144,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.49,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia martialis,gbif:1341144,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia nitidifrons,gbif:1341171,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.61,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia nitidifrons,gbif:1341171,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.34,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.49,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.24,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.36,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.23,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.4,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.22,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.3,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.35,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.47,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.4,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.3,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.29,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia ochracea,gbif:1341157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.5,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia ochracea,gbif:1341157,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia opuntiae,gbif:1341160,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.35,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia opuntiae,gbif:1341160,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.81,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.78,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.93,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.68,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.62,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.6,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.65,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.65,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.79,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.67,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.87,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.93,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.79,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.93,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.68,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.87,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.72,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.02,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.7,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.61,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.92,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.76,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.64,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.31,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.75,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.59,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.63,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.65,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.79,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.55,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.79,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.7,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.72,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.59,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.61,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.6,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.64,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.49,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.65,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.78,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.02,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.02,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.65,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.69,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.92,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.66,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.78,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.72,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.95,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.52,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.69,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.93,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.02,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.95,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.78,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.68,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.95,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.52,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.45,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.63,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.17,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.87,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.93,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.62,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.18,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.87,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.75,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.75,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.02,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.87,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.98,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.87,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.75,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.71,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.91,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.59,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.69,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.67,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.53,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.24,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.68,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.71,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.93,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.91,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.98,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.93,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.71,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.07,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.01,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.13,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.7,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.66,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.22,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.71,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.04,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.9,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.71,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.12,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.1,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.32,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.79,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.05,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.91,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.76,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.7,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.04,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.04,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.86,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.67,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.5,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.67,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.79,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.73,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.69,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.78,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Diadasia rinconis,gbif:1341128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Diadasia rinconis,gbif:1341128,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.3,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Diadasia sp. 1,gbif:1341127,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.66,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Diadasia sp. 2,gbif:1341127,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.11,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Dialictus cfr. micheneri,gbif:1352488,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,0.8,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Dialictus cfr. micheneri,gbif:1352488,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,1.752,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Dialictus guaruvae Moure, 1987",gbif:1352488,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,0.796,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Dialictus guaruvae Moure, 1987",gbif:1352488,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,1.714,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Dialictus Sp. 3,gbif:1352488,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.9,single observation,mm,NA,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Dialictus Sp. 5,gbif:1352488,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.1,single observation,mm,NA,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Dialictus sp.01  ,gbif:1352488,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,0.95,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Dialictus sp.01  ,gbif:1352488,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,2.101,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Dialictus sp.02,gbif:1352488,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,1.076,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Dialictus sp.02,gbif:1352488,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,2.239,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Dianthidium 1,gbif:1337520,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.323,mean,mm,NA,NA,NA,NA,NA,2003,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dianthidium dubium,gbif:1337562,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dianthidium dubium,gbif:1337562,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.6,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Dianthidium heterulkei,gbif:1337533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.007,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Dianthidium implicatum,gbif:1337566,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.01,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dianthidium pudicum,gbif:1337541,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dianthidium pudicum,gbif:1337541,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.7,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Dianthidium subparvum,gbif:1337546,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.035609497,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Dianthidium ulkei,gbif:1337548,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.89,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Dicranthidium areanarium,gbif:9006170,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.56,mean,mm,66,NA,NA,NA,43,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Dolichotrigona longitarsis,gbif:8847641,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean,mm,72,NA,NA,NA,44,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Dolichotrigona longitarsis Moure, 1950",gbif:8847641,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.9,mean ,mm,5,NA,NA,NA,sp04,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Dufoura dentiventris,gbif:1351938,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,29,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Dufoura dentiventris,gbif:1351938,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.47,mean,mm,NA,NA,NA,29,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea aff. sanhouseae,gbif:5042766,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea aff. sanhouseae,gbif:5042766,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.54,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea aff. saundersi,gbif:5042755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.09,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea aff. saundersi,gbif:5042755,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Dufourea alpina,gbif:1351991,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.18,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Dufourea alpina,gbif:1351991,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.14,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea australis,gbif:5042663,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea australis,gbif:5042663,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.95,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea brevicornis,gbif:5042763,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea brevicornis,gbif:5042763,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.65,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Dufourea dentiventris,gbif:1351938,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.22,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Dufourea dentiventris,gbif:1351938,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.36,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Dufourea maura,gbif:5042670,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.814934997,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea mulleri,gbif:5042791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea mulleri,gbif:5042791,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.99,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea rhamni,gbif:5042777,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea rhamni,gbif:5042777,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.38,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea scintilla,gbif:5042732,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.89,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Dufourea scintilla,gbif:5042732,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Dufourea sp. 2,gbif:1351817,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,E.SCUTELARIS,gbif:1341913,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.33,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2209,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Epanthidium tigrinum,gbif:1334548,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,104,NA,NA,NA,45,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Epeolus aff_americanus,gbif:1341912,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.693,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Epeolus brumleyi,gbif:9649958,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.814,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Epeolus compactus,gbif:1341911,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.51,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Epeolus compactus,gbif:1341911,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.878,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Epeolus compactus,gbif:1341911,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Epeolus compactus,gbif:1341911,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Epeolus cruciger,gbif:1341892,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.86,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Epeolus interrupta,gbif:1341873,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.67,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Epeolus mesillae,gbif:1341869,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Epeolus mesillae,gbif:1341869,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.533,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Epeolus sp. 1,gbif:1341852,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,8,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Epeolus sp. 2,gbif:1341852,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.5,mean,mm,7,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Epeolus variegatus,gbif:1341940,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,11,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Epicharis (Hoplepicharis) lunulata,gbif:5039641,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.22,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Epicharis affinis,gbif:5039610,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.72,mean,mm,20,NA,NA,NA,46,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Epicharis albofasciata,gbif:5039613,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.9,mean,mm,11,NA,NA,NA,47,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Epicharis flava,gbif:5039631,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.4,mean,mm,78,NA,NA,NA,48,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Epicharis rustica,gbif:5039645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.2,mean,mm,18,NA,NA,NA,49,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Eucera (Synhalonia) actuosa,gbif:1341126,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.73,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Eucera (Synhalonia) amsinckiae,gbif:1341086,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.14,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Eucera (Synhalonia) frater,gbif:1341050,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.9,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Eucera (Synhalonia) lunata,gbif:1340938,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.77,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Eucera (Synhalonia) stretchii,gbif:1341045,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.07,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Eucera (Synhalonia) virgata,gbif:1340959,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.02,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera aff_albescens,gbif:1341115,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.408,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera aff_albescens,gbif:1341115,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.255,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera aff_albescens,gbif:1341115,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.354,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera albata,gbif:1343067,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera albata,gbif:1343067,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.32,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera albata,gbif:1343067,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.36,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera belfragei,gbif:1341097,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,13.3,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera belfragei,gbif:1341097,body size,front wing length,NA,NA,NA,species,9,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera belfragei,gbif:1341097,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera belfragei,gbif:1341097,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,3.4,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Eucera chinensis,gbif:1341006,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.94,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Eucera chrysopyga (Pérez. 1879),gbif:1340994,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.31,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Eucera chrysopyga (Pérez. 1879),gbif:1340994,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.75,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Eucera chrysopyga (Perez, 1879)",gbif:1340994,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.21,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,"Eucera chrysopyga (P�REZ, 1879)",gbif:1340994,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.31,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Eucera clypeata,gbif:1340961,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.75,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Eucera dorsata,gbif:1341112,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.69,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Eucera dorsata,gbif:1341112,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.52,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera dubitata,gbif:1341004,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,13,mean,mm,20,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera dubitata,gbif:1341004,body size,front wing length,NA,NA,NA,species,8.8,mean,mm,20,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera dubitata,gbif:1341004,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,20,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera dubitata,gbif:1341004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,3.3,mean,mm,20,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Eucera edwardsii,gbif:1341070,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Eucera edwardsii,gbif:1341070,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.3,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera eriocarpi,gbif:1340870,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.988,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera eriocarpi,gbif:1340870,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.288,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Eucera eucnemidea Dours, 1873",gbif:1340991,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.35,mean,mm,16,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Eucera fervens (Smith),gbif:1340870,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11,mean,mm,10,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Eucera floralia,gbif:1340901,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.96,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera hamata,gbif:1341092,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,14.4,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera hamata,gbif:1341092,body size,front wing length,NA,NA,NA,species,10.9,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera hamata,gbif:1341092,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera hamata,gbif:1341092,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,4,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Eucera interrupta,gbif:1340979,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,0.67,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Eucera interrupta Baer, 1850",gbif:1340979,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.79,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Eucera longicornis,gbif:1340884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.48,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Eucera longicornis,gbif:1340884,body size,thorax length,NA,mean thorax length,NA,species,14,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Eucera longicornis (LINNAEUS 1758),gbif:1340884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,3.21,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Eucera longicornis (LINNAEUS 1758),gbif:1340884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.21,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Eucera longicornis (LINNAEUS 1758),gbif:1340884,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,6.54,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Eucera longicornis (Linnaeus, 1758)",gbif:1340884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.21,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Eucera longicornis Linnaeus 1758,gbif:1340884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Eucera longicornis Linnaeus 1758,gbif:1340884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Eucera longicornis Linnaeus 1758,gbif:1340884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.6,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Eucera longicornis Linnaeus 1758,gbif:1340884,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,7.29,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.42,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.47,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.37,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.03,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera lycii,gbif:1340930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.08,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Eucera nigrescens,gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,3.5,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Eucera nigrescens,gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.52,mean,mm,29,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Eucera nigrescens,gbif:1340969,body size,thorax length,NA,mean thorax length,NA,species,14.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Eucera nigrescens Pérez, 1879",gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.06,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Eucera nigrescens PÉREZ 1880,gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.17,mean,mm,15,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Eucera nigrescens PÉREZ 1880,gbif:1340969,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.47,mean,mm,15,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Eucera nigrescens Perez 1879,gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.45,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Eucera nigrescens Perez 1879,gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.45,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Eucera nigrescens Perez 1879,gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.45,mean,mm,2,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Eucera nigrescens Perez 1879,gbif:1340969,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,6.99,mean,mm,23,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Eucera nigrescens P�REZ 1880,gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.17,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Eucera nigrescens Perez, 1879",gbif:1340969,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.16,mean,mm,20,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Austria; France,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Eucera nigrifacies,gbif:1340962,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.8,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Eucera nigrifacies Lepeletier, 1841",gbif:1340962,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,10,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Eucera nigrilabris Lepeletier, 1841",gbif:1340962,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.65,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Eucera numida Lepeletier, 1841",gbif:1340962,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.28,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Eucera pollinosa,gbif:1340995,body size,thorax length,NA,mean thorax length,NA,species,10.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera pruinosa,gbif:1339646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.482,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera pruinosa,gbif:1339646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.703,mean,mm,NA,NA,NA,NA,NA,2009,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera rosae,gbif:1341078,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,15,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera rosae,gbif:1341078,body size,front wing length,NA,NA,NA,individual,12.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera rosae,gbif:1341078,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,75-100,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Eucera rosae,gbif:1341078,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,3.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Eucera seminuda Brulle, 1832",gbif:1341043,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.65,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Eucera territella,gbif:1341084,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.39,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Eucera tricinctella,gbif:1341104,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.72,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Eucera tricinctella,gbif:1341104,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.57,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Eucera virgata,gbif:1340959,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.18,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Eucera virgata,gbif:1340959,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.47,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Eucera_atriventris,gbif:1341075,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.6,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea auriceps,gbif:1339320,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.22,mean,mm,11,NA,NA,NA,50,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea concava,gbif:1339265,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.4,mean,mm,10,NA,NA,NA,51,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea eburneocincta,gbif:1339321,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.68,mean,mm,13,NA,NA,NA,52,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea elegans,gbif:1339312,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.7,mean,mm,13,NA,NA,NA,53,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea flaviventris,gbif:1339272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.3,mean,mm,20,NA,NA,NA,54,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea fuscatra,gbif:10898232,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.3,mean,mm,4,NA,NA,NA,55,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea ornata,gbif:1339273,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7,mean,mm,20,NA,NA,NA,56,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea pulchra,gbif:1339307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.9,mean,mm,72,NA,NA,NA,57,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea superba,gbif:1339290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.2,mean,mm,21,NA,NA,NA,58,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eufriesea surinamensis,gbif:1339280,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.66,mean,mm,37,NA,NA,NA,59,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa allosticta,gbif:1340617,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.19,mean,mm,20,NA,NA,NA,60,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa amazonica,gbif:1340608,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.3,mean,mm,33,NA,NA,NA,61,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa analis,gbif:1340600,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,20,NA,NA,NA,62,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Euglossa annectans Dressler, 1982  ",gbif:1340556,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.355,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Euglossa annectans Dressler, 1982  ",gbif:1340556,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,14.045,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa augaspis,gbif:1340656,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,161,NA,NA,NA,63,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa avicula,gbif:1340650,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5,mean,mm,82,NA,NA,NA,64,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa azureoviridis,gbif:1340662,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.32,mean,mm,5,NA,NA,NA,65,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa bidentata,gbif:1340626,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5,mean,mm,82,NA,NA,NA,66,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa chalybeata,gbif:1340598,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,157,NA,NA,NA,67,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa chlorina,gbif:1340581,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.4,mean,mm,24,NA,NA,NA,68,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa cognata,gbif:1340563,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4,mean,mm,112,NA,NA,NA,69,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa cordata,gbif:1340666,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.44,mean,mm,133,NA,NA,NA,70,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa crassipunctata,gbif:1340644,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3,mean,mm,59,NA,NA,NA,71,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa deceptrix,gbif:1340578,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5,mean,mm,30,NA,NA,NA,72,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa decorata,gbif:1340570,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5,mean,mm,23,NA,NA,NA,73,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa despecta,gbif:1340673,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5,mean,mm,40,NA,NA,NA,74,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa fimbriata,gbif:1340622,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.3,mean,mm,34,NA,NA,NA,75,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa gaianii,gbif:1340661,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.4,mean,mm,94,NA,NA,NA,76,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa hemichlora,gbif:1340660,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.32,mean,mm,25,NA,NA,NA,77,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa heterosticta,gbif:1340649,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.25,mean,mm,10,NA,NA,NA,78,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa ignita,gbif:1340602,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,180,NA,NA,NA,79,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa imperialis,gbif:1340585,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.1,mean,mm,130,NA,NA,NA,80,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa intersecta,gbif:1340559,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5,mean,mm,58,NA,NA,NA,81,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa ioprosopa,gbif:1340658,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.68,mean,mm,19,NA,NA,NA,82,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa iopyrrha,gbif:1340647,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,33,NA,NA,NA,83,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa juremae,gbif:10847865,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.66,mean,mm,5,NA,NA,NA,84,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa liopoda,gbif:1340583,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3,mean,mm,14,NA,NA,NA,85,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa magnipes,gbif:1340657,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.4,mean,mm,29,NA,NA,NA,86,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa mixta,gbif:1340599,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,33,NA,NA,NA,87,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa modestior,gbif:1340590,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.3,mean,mm,86,NA,NA,NA,88,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa mourei,gbif:1340572,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.4,mean,mm,69,NA,NA,NA,89,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa occidentalis,gbif:1340645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.74,mean,mm,3,NA,NA,NA,90,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa orellana,gbif:1340625,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,67,NA,NA,NA,91,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa piliventris,gbif:1340665,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.5,mean,mm,26,NA,NA,NA,92,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa ploesticta,gbif:1340643,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.48,mean,mm,34,NA,NA,NA,93,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa prasina,gbif:1340623,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,27,NA,NA,NA,94,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa retroviridis,gbif:1340603,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.45,mean,mm,12,NA,NA,NA,95,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa securigera,gbif:1340663,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,48,NA,NA,NA,96,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Euglossa sp. 1,gbif:1340556,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.89,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Euglossa stellfeldi Moure, 1947",gbif:1340620,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,6.482,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Euglossa stellfeldi Moure, 1947",gbif:1340620,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,12.812,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa townsendi,gbif:1340576,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,40,NA,NA,NA,97,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Euglossa variabilis,gbif:1340639,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.5,mean,mm,13,NA,NA,NA,98,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eulaema bombiformis,gbif:1339337,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.5,mean,mm,165,NA,NA,NA,99,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eulaema cingulata,gbif:1339350,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.3,mean,mm,224,NA,NA,NA,100,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eulaema meriana,gbif:1339331,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7,mean,mm,253,NA,NA,NA,101,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eulaema mocsaryi,gbif:1339352,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.44,mean,mm,147,NA,NA,NA,102,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eulaema nigrita,gbif:1339345,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.4,mean,mm,297,NA,NA,NA,103,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eulaema pseudocingulata,gbif:1339347,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6,mean,mm,54,NA,NA,NA,104,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Eulaema tenuifasciata,gbif:1339349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.6,mean,mm,15,NA,NA,NA,105,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Eulonchopria sp. 1,gbif:1350338,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.36,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Exaerete frontalis,gbif:1339678,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.6,mean,mm,87,NA,NA,NA,106,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Exaerete smaragdina,gbif:1339680,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.5,mean,mm,104,NA,NA,NA,107,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Exomalopsis analis,gbif:1339631,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean,mm,91,NA,NA,NA,108,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Exomalopsis auropilosa,gbif:1339584,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.64,mean,mm,54,NA,NA,NA,109,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Exomalopsis solani,gbif:1339588,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.855,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Exomalopsis solani,gbif:1339588,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.677,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Exomalopsis sp.,gbif:1339543,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,0.876,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Exomalopsis sp.,gbif:1339543,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,1.877,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Exomalopsis sp. 1,gbif:1339543,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.46,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Exomalopsis sp. 2,gbif:1339543,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Exomalopsis subtilis,gbif:1339547,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.82,mean,mm,15,NA,NA,NA,110,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Exomalopsis tomentosa Friese, 1899",gbif:1339601,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Exomalopsis tomentosa Friese, 1899",gbif:1339601,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.903,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Florilegus festivus,gbif:1342712,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,18,NA,NA,NA,111,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Frieseomelitta doederleini,gbif:1344801,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,57,NA,NA,NA,112,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Frieseomelitta flavicornis,gbif:1344806,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,26,NA,NA,NA,113,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Frieseomelitta longipes,gbif:1344797,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,26,NA,NA,NA,114,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Frieseomelitta longipes (Smith, 1854)",gbif:1344797,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean ,mm,5,NA,NA,NA,sp05,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Frieseomelitta portoi,gbif:1344804,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.9,mean,mm,16,NA,NA,NA,115,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Frieseomelitta portoi (Friese, 1900)",gbif:1344804,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.9,mean ,mm,5,NA,NA,NA,sp06,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Frieseomelitta silvestrii,gbif:1344805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.05,mean,mm,18,NA,NA,NA,116,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Frieseomelitta varia,gbif:1344799,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.34,mean,mm,38,NA,NA,NA,117,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Geotrigona aequinoctialis,gbif:1343219,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.58,mean,mm,22,NA,NA,NA,118,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Geotrigona mattogrossensis,gbif:1343222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,32,NA,NA,NA,119,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.AFFINIS,gbif:1349363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2128,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.ANNULATUS,gbif:1350053,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2130,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.ANTHOCOPOIDES,gbif:1337324,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.65,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2112,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.BASALIS,gbif:1350009,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.45,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2131,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.CALLIOPSIDIS,gbif:1340791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.25,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2212,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.CARINATA,gbif:1336811,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.67,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2107,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.COMMUNIS,gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2133,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.CONFUSUS,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.89,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2058,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.HYALINATUS,gbif:1349638,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.71,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2126,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.LEAVITTI,gbif:1336895,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.75,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2111,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.LEPTOCEPHALUS,gbif:1349573,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.05,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2134,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.LIGATUS,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.48,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2059,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.MESILLAE,gbif:1349478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.86,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2127,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.MODESTUS,gbif:1349446,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.65,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2129,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.NELUMBONIS,gbif:1349451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.53,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2135,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.PILOSIFRONS,gbif:5038701,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2109,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.PRODUCTA,gbif:5038673,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2108,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.PUNCTATUS,gbif:1350002,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2132,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.RUBICUNDUS,gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.14,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2057,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,H.SPOLIATA,gbif:5038879,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.15,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2110,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Habropoda morrisoni,gbif:1345227,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.801,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Habropoda morrisoni,gbif:1345227,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.505,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Habropoda pallida,gbif:1345199,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.9,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Habropoda sinensis,gbif:1345239,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.03,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Habropoda tristissima,gbif:1345218,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.26,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Habropoda tristissima,gbif:1345218,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.73,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Habropoda tristissima,gbif:1345218,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.53,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Habropoda_laboriosa,gbif:1345188,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus asperulus Pérez, 1895",gbif:1353345,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.2,mean,mm,18,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Halictus brunneiventre,gbif:1354684,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.90389607,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus brunnescens (Eversmann, 1852)",gbif:1353269,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,17.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus confusus,gbif:1353363,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7.2,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus confusus,gbif:1353363,body size,front wing length,NA,NA,NA,species,5,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus confusus,gbif:1353363,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Halictus confusus,gbif:1353363,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.18,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus confusus,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.5,mean,mm,7,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Halictus confusus,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.36,mean,mm,4,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Halictus confusus,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.35,mean,mm,8,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Halictus confusus,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Halictus confusus,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.45,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Halictus confusus,gbif:1353363,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Halictus confusus,gbif:1353363,body size,undefined,NA,NA,NA,species,7,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Halictus confusus,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.237297222,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Halictus eurygnathus,gbif:1353393,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus eurygnathus Bluethgen, 1931",gbif:1353393,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.77,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Halictus farinosus,gbif:1353425,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.13,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Halictus farinosus,gbif:1353425,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Halictus farinosus,gbif:1353425,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.88,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Halictus fulvipes,gbif:1353348,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.13,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus fulvipes (Klug, 1817)",gbif:1353348,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,11.5,mean,mm,53,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus gavarnicus,gbif:1353295,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.15,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus gemmeus Dours, 1872",gbif:1353285,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.7,mean,mm,275,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus gruenwaldti Ebmer, 1975",gbif:1353196,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,17.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus kessleri BRAMSON 1880,gbif:1353283,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.27,mean,mm,8,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Halictus kessleri BRAMSON 1880,gbif:1353283,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.27,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus kessleri BRAMSON 1880,gbif:1353283,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.72,mean,mm,8,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus kessleri Bramson, 1879",gbif:1353283,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.29,mean,mm,9,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus langobardicus,gbif:1353227,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.24,mean,mm,9,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus langobardicus Blüthgen, 1944",gbif:1353227,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.5,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus langobardicus Bluethgen, 1944",gbif:1353227,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.47,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus ligatus,gbif:1353451,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.4,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus ligatus,gbif:1353451,body size,front wing length,NA,NA,NA,species,5.8,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus ligatus,gbif:1353451,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.9,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.61,mean,mm,28,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.53,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.82,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.72,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.37,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.34,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.31,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.81,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.28,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.94,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus ligatus,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Halictus ligatus,gbif:1353451,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Halictus ligatus,gbif:1353451,body size,undefined,NA,NA,NA,species,8.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Halictus maculatus,gbif:1353364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus maculatus,gbif:1353364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,83,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Halictus maculatus,gbif:1353364,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Halictus maculatus,gbif:1353364,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus maculatus Smith 1848,gbif:1353364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus maculatus Smith 1848,gbif:1353364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus maculatus Smith 1848,gbif:1353364,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.04,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus maculatus SMITH 1849,gbif:1353364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.32,mean,mm,15,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Halictus maculatus SMITH 1849,gbif:1353364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.32,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus maculatus SMITH 1849,gbif:1353364,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.79,mean,mm,15,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus maculatus Smith, 1848",gbif:1353364,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.2,mean,mm,8,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Halictus maculatus Smith, 1848",gbif:1353364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.54,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus maculatus Smith, 1848",gbif:1353364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.37,mean,mm,7,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland); North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E); Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; France; Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus Monilapis gr.,gbif:1347978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,212,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus parallelus,gbif:1353240,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,13.2,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus parallelus,gbif:1353240,body size,front wing length,NA,NA,NA,species,9.5,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus parallelus,gbif:1353240,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus parallelus,gbif:1353240,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.7,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Halictus quadricinctus,gbif:1353236,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.93,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus quadricinctus,gbif:1353236,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.93,mean,mm,108,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Halictus quadricinctus,gbif:1353236,body size,thorax length,NA,mean thorax length,NA,species,16,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus quadricinctus (Fabricius 1776),gbif:1353236,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.9,single observation,mm,1,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus quadricinctus (Fabricius 1776),gbif:1353236,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.9,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Halictus quadricinctus (Fabricius 1776),gbif:1353236,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.85,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus quadricinctus (FABRICIUS 1776),gbif:1353236,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.67,mean,mm,5,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Halictus quadricinctus (FABRICIUS 1776),gbif:1353236,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.67,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus quadricinctus (Fabricius 1776),gbif:1353236,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,3.84,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus quadricinctus (FABRICIUS 1776),gbif:1353236,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.53,mean,mm,5,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus quadricinctus (Fabricius, 1776)",gbif:1353236,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,18.2,mean,mm,3,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus quadricinctus (Fabricius, 1776)",gbif:1353236,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,4,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus rubicundis,gbif:1353453,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus rubicundis,gbif:1353453,body size,front wing length,NA,NA,NA,species,7.6,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus rubicundis,gbif:1353453,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Halictus rubicundis,gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.1,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Halictus rubicundus,gbif:1353453,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.31,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus rubicundus,gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,9,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Halictus rubicundus,gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.96,mean,mm,NA,0.24,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Halictus rubicundus,gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,30,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Halictus rubicundus,gbif:1353453,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.68,mean,mm,NA,NA,NA,30,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Halictus rubicundus,gbif:1353453,body size,undefined,NA,NA,NA,species,10.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Halictus rubicundus,gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.053315518,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus rubicundus (Christ 1791),gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.12,mean,mm,11,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus rubicundus (Christ 1791),gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.12,mean,mm,11,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Halictus rubicundus (Christ 1791),gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.12,mean,mm,4,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus rubicundus (CHRIST 1791),gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.05,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Halictus rubicundus (CHRIST 1791),gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.05,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus rubicundus (Christ 1791),gbif:1353453,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.84,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus rubicundus (CHRIST 1791),gbif:1353453,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.73,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus rubicundus (Christ, 1791)",gbif:1353453,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,11.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Halictus rubicundus (Christ, 1791)",gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.96,mean,mm,72,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus rubicundus (Christ, 1791)",gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.05,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Halictus scabiosae,gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.44,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus scabiosae,gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.43,mean,mm,267,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Halictus scabiosae,gbif:1353395,body size,thorax length,NA,mean thorax length,NA,species,15,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus scabiosae (Rossi 1790),gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.52,mean,mm,14,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus scabiosae (Rossi 1790),gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.52,mean,mm,14,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Halictus scabiosae (Rossi 1790),gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.52,mean,mm,15,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus scabiosae (Rossi 1790),gbif:1353395,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.35,mean,mm,52,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus scabiosae (Rossi, 1790)",gbif:1353395,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,13.9,mean,mm,33,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus scabiosae (Rossi, 1790)",gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,15,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus seladonius (FABRICIUS 1794),gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.48,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Halictus seladonius (FABRICIUS 1794),gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.48,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus seladonius (FABRICIUS 1794),gbif:1353395,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus seladonius (Fabricius, 1794)",gbif:1353395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Halictus sexcinctus,gbif:1353322,body size,thorax length,NA,mean thorax length,NA,species,15,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Halictus simplex,gbif:1353310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus simplex,gbif:1353310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,21,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Halictus simplex,gbif:1353310,body size,thorax length,NA,mean thorax length,NA,species,8.8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus simplex Blüthgen 1923,gbif:1353310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.94,mean,mm,15,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus simplex Blüthgen 1923,gbif:1353310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.94,mean,mm,15,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Halictus simplex Blüthgen 1923,gbif:1353310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.94,mean,mm,4,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus simplex Blüthgen 1923,gbif:1353310,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,2.61,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Halictus simplex Blüthgen, 1923",gbif:1353310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.72,mean,mm,23,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus simplex Bluethgen, 1923",gbif:1353310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.77,mean,mm,26,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; France; Romania,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,"Halictus simplex BL�THGEN, 1923",gbif:1353310,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.71,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus simplex/eurygnathus,gbif:1347978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.71,mean,mm,32,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus simplex/eurygnathus,gbif:1347978,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.29,mean,mm,32,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Halictus smaragdulus,gbif:1353300,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.03,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus smaragdulus,gbif:1353300,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,14,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus smaragdulus (Vachal, 1895)",gbif:1353300,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.22,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus smaragdulus VACHAL 1895,gbif:1353300,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.19,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Halictus smaragdulus VACHAL 1895,gbif:1353300,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.19,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus smaragdulus VACHAL 1895,gbif:1353300,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.61,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus smaragdulus Vachal, 1895",gbif:1353300,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,5.75,mean,mm,191,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Halictus sp,gbif:1347978,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7.51,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 1,gbif:1347978,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,7.74,mean,mm,NA,0.16,std error,4,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 1,gbif:1347978,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,3.94,mean,mm,NA,0.05,std error,4,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 1,gbif:1347978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.7,mean,mm,NA,0.07,std error,4,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 1,gbif:1347978,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,4.32,mean,mm,NA,0.08,std error,4,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 1,gbif:1347978,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,3.29,mean,mm,NA,0.07,std error,4,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus sp. 1_09,gbif:1347978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus sp. 1_09,gbif:1347978,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,1.37,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 2,gbif:1347978,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,7.7,mean,mm,NA,NA,std error,5,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 2,gbif:1347978,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,4.12,mean,mm,NA,NA,std error,5,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 2,gbif:1347978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.27,mean,mm,NA,NA,std error,5,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 2,gbif:1347978,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,4.57,mean,mm,NA,NA,std error,5,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Halictus sp. 2,gbif:1347978,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,4.2,mean,mm,NA,NA,std error,5,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus sp.1_10,gbif:1347978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.78,mean,mm,22,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus sp.1_10,gbif:1347978,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.38,mean,mm,22,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus sp.2_10,gbif:1347978,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.17,mean,mm,17,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus sp.2_10,gbif:1347978,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.59,mean,mm,17,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus subauratus,gbif:1353234,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.62,mean,mm,236,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Halictus subauratus,gbif:1353234,body size,thorax length,NA,mean thorax length,NA,species,8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus subauratus (Rossi 1792),gbif:1353234,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus subauratus (Rossi 1792),gbif:1353234,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus subauratus (ROSSI 1792),gbif:1353234,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.41,mean,mm,15,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Halictus subauratus (ROSSI 1792),gbif:1353234,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.41,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus subauratus (Rossi 1792),gbif:1353234,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.17,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus subauratus (ROSSI 1792),gbif:1353234,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.9,mean,mm,15,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus subauratus (Rossi, 1792)",gbif:1353234,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.9,mean,mm,94,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus subauratus Rossi, 1792",gbif:1353234,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,7,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; France; Romania,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.33,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.24,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.21,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.19,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.21,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.22,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.22,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.25,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Halictus tripartitus,gbif:1353319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Halictus tripartitus,gbif:1353319,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.87,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Halictus tsingtouensis,gbif:1353308,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.13,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Halictus tumulorum,gbif:1353289,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.16,mean,mm,NA,0.02,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Halictus tumulorum,gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.49,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Halictus tumulorum,gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.49,mean,mm,22,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Halictus tumulorum,gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.33,mean,mm,NA,0.03,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Halictus tumulorum,gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,31,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Halictus tumulorum,gbif:1353289,body size,thorax length,NA,mean thorax length,NA,species,8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Halictus tumulorum,gbif:1353289,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.68,mean,mm,NA,NA,NA,31,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus tumulorum (Linnaeus 1758),gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,23,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus tumulorum (Linnaeus 1758),gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,23,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Halictus tumulorum (Linnaeus 1758),gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,11,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus tumulorum (LINNAEUS 1758),gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.31,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Halictus tumulorum (LINNAEUS 1758),gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.31,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Halictus tumulorum (Linnaeus 1758),gbif:1353289,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.93,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Halictus tumulorum (LINNAEUS 1758),gbif:1353289,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.78,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Halictus tumulorum (Linnaeus, 1758)",gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.33,mean,mm,266,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Halictus tumulorum (Linnaeus, 1758)",gbif:1353289,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.33,mean,mm,4,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; France; Romania,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Halictus vestitus Lepeletier, 1841",gbif:1353188,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.75,mean,mm,49,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Halictus_confusus,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6405,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Halictus_confusus,gbif:1353363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Halictus_ligatus_poeyi,gbif:1353451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Halictus_parallelus,gbif:1353240,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Halictus_rubicundus,gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.65,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Halictus_rubicundus,gbif:1353453,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Heriades carinata,gbif:1336811,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.52,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,NA,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Heriades carinata,gbif:1336811,body size,undefined,NA,NA,NA,species,7,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Heriades crenulatus,gbif:1336835,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.53,mean,mm,16,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Heriades crenulatus,gbif:1336835,body size,thorax length,NA,mean thorax length,NA,species,8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Heriades occidentalis,gbif:1336852,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Heriades othonis,gbif:1336827,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.31,mean,mm,NA,NA,NA,B10,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Heriades othonis,gbif:1336827,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.42,mean,mm,NA,NA,NA,B10,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Heriades rubicola Pérez, 1890",gbif:1336823,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7,mean,mm,6,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Heriades sp.,gbif:1336750,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,5.57,mean,mm,NA,NA,std error,2,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Heriades sp.,gbif:1336750,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,3.16,mean,mm,NA,NA,std error,2,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Heriades sp.,gbif:1336750,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.35,mean,mm,NA,NA,std error,2,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Heriades sp.,gbif:1336750,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,3.04,mean,mm,NA,NA,std error,2,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Heriades sp.,gbif:1336750,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,3.37,mean,mm,NA,NA,std error,2,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Heriades sp. 1,gbif:1336750,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Heriades truncorum,gbif:1336802,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.24,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Heriades truncorum,gbif:1336802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.51,mean,mm,67,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Heriades truncorum,gbif:1336802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.62,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Heriades truncorum,gbif:1336802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,32,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Heriades truncorum,gbif:1336802,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Heriades truncorum,gbif:1336802,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.38,mean,mm,NA,NA,NA,32,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Heriades truncorum (LINNAEUS 1758),gbif:1336802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.32,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Heriades truncorum (LINNAEUS 1758),gbif:1336802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.32,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Heriades truncorum (LINNAEUS 1758),gbif:1336802,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.43,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Heriades truncorum (Linnaeus, 1758)",gbif:1336802,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,7,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Heriades truncorum (Linnaeus, 1758)",gbif:1336802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.49,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Heriades truncorum (Linnaeus, 1758)",gbif:1336802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.32,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Heriades_carinata,gbif:1336811,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hesperapis ilicifoliae,gbif:1345834,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hesperapis ilicifoliae,gbif:1345834,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.35,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hesperapis trochanterata,gbif:1345819,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.966,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Hexepeolus sp. 1,gbif:1340144,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.03,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Holcopasites calliopsidis,gbif:1340791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.843,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Holcopasites calliopsidis,gbif:1340791,body size,undefined,NA,NA,NA,species,5.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Holcopasites pulchellus,gbif:1340786,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.996,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Holcopasites_calliopsidis,gbif:1340791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hoplitis adunca,gbif:1337092,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.67,mean,mm,61,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hoplitis aff_torchioi,gbif:5038858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.439,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hoplitis aff_torchioi,gbif:5038858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.557,mean,mm,NA,NA,NA,NA,NA,2006,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hoplitis albifrons,gbif:5038967,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.63,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis albifrons,gbif:5038967,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.29,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis albifrons,gbif:5038967,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hoplitis albifrons argentifrons,gbif:5038967,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.283420207,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hoplitis claviventris,gbif:1337361,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,33,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hoplitis claviventris,gbif:1337361,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.64,mean,mm,NA,NA,NA,33,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Hoplitis claviventris Thomson, 1872",gbif:1337361,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.01,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hoplitis f sp1,gbif:1336906,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.623376563,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hoplitis fulgida,gbif:5038677,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.51,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis fulgida,gbif:5038677,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.81,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis fulgida,gbif:5038677,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hoplitis fulgida fulgida,gbif:5038677,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.861401356,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hoplitis grinnelli,gbif:5038651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.28,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis grinnelli,gbif:5038651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hoplitis grinnelli,gbif:5038651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.093,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hoplitis grinnelli,gbif:5038651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.344,mean,mm,NA,NA,NA,NA,NA,2012,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis grinnelli,gbif:5038651,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.64,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hoplitis grinnelli,gbif:5038651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.19480515,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hoplitis howardi,gbif:5038626,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.15,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hoplitis hypocrita,gbif:5038614,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.59,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hoplitis leucomelana,gbif:1336921,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.64,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Hoplitis leucomelana (Kirby, 1802)",gbif:1336921,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.5,mean,mm,3,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Hoplitis leucomelana (Kirby, 1802)",gbif:1336921,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; France; Romania,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hoplitis mitis,gbif:1337386,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.5,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hoplitis mitis,gbif:1337386,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hoplitis pilosifrons,gbif:5038701,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.8,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hoplitis pilosifrons,gbif:5038701,body size,front wing length,NA,NA,NA,species,5.2,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hoplitis pilosifrons,gbif:5038701,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hoplitis pilosifrons,gbif:5038701,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.8,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hoplitis producta,gbif:5038673,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7.4,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hoplitis producta,gbif:5038673,body size,front wing length,NA,NA,NA,species,4.9,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hoplitis producta,gbif:5038673,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hoplitis producta,gbif:5038673,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.4,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Hoplitis producta,gbif:5038673,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,1.66,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hoplitis producta,gbif:5038673,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.27,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hoplitis producta,gbif:5038673,body size,undefined,NA,NA,NA,species,8,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hoplitis producta,gbif:5038673,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.386036303,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hoplitis robusta,gbif:1337391,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.659087871,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hoplitis sambuci,gbif:5038972,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.23,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis seminigra,gbif:5038961,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis seminigra,gbif:5038961,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.23,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis semirubra,gbif:8742342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.52,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hoplitis semirubra,gbif:8742342,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.79,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hoplitis tuberculata,gbif:1337165,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,34,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hoplitis tuberculata,gbif:1337165,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.64,mean,mm,NA,NA,NA,34,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Hoplitis tuberculata Nylander, 1848",gbif:1337165,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.47,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hoplitis villosa,gbif:1336926,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.69,mean,mm,NA,0.21,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hoplitis villosa,gbif:1336926,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.66,mean,mm,NA,0.27,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hoplitis zuni,gbif:5038710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.085,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Hoplitis_pilosifrons,gbif:5038701,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Hoplitis_producta,gbif:5038673,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Hoplitis_truncata,gbif:5038789,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Hoplosmia spinulosa (Kirby, 1802)",gbif:1337620,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.89,mean,mm,6,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Hoplosmia spinulosa (Kirby, 1802)",gbif:1337620,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.84,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,France; Romania,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hyaleus episcopalis,gbif:1349860,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.18,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hyaleus episcopalis,gbif:1349860,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hyaleus mesillae,gbif:1349478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.92,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hyaleus mesillae,gbif:1349478,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.79,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Hylaeus (Nothylaeus) Bridwell,gbif:4677877,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.14,single observation,mm,NA,NA,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,woodlands
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hylaeus 1,gbif:1349360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.877,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hylaeus 2,gbif:1349360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.321,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Hylaeus affinis,gbif:1349363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.17,mean,mm,6,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Hylaeus affinis,gbif:1349363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,1.18,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus affinis,gbif:1349363,body size,undefined,NA,NA,NA,species,5.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hylaeus affinis?,gbif:1349363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2467532,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus affinis/modestus,gbif:1349360,body size,undefined,NA,NA,NA,species,5.75,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus alpinus,gbif:1349617,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.11,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus alpinus,gbif:1349617,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus angustatus,gbif:1349822,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.06,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus angustatus,gbif:1349822,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,35,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus angustatus,gbif:1349822,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.64,mean,mm,NA,NA,NA,35,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Hylaeus angustatus (Schenck, 1861)",gbif:1349822,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,5.7,mean,mm,5,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus annularis,gbif:1349884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.67,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus annularis (KIRBY 1802),gbif:1349884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.34,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Hylaeus annularis (KIRBY 1802),gbif:1349884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.34,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus annularis (KIRBY 1802),gbif:1349884,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.14,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Hylaeus annularis (Kirby, 1802)",gbif:1349884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,1.45,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus annulatus,gbif:1350053,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.07,mean,mm,NA,0.01,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Hylaeus annulatus,gbif:1350053,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.09,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus annulatus,gbif:1350053,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.37,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus annulatus,gbif:1350053,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,36,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus annulatus,gbif:1350053,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.86,mean,mm,NA,NA,NA,36,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus annulatus,gbif:1350053,body size,undefined,NA,NA,NA,species,5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hylaeus annulatus,gbif:1350053,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.376623325,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hylaeus asininus,gbif:1350037,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.114,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus brevicornis,gbif:1349560,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.04,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus brevicornis,gbif:1349560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,11,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus brevicornis,gbif:1349560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus brevicornis,gbif:1349560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,37,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus brevicornis,gbif:1349560,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.86,mean,mm,NA,NA,NA,37,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus brevicornis NYLANDER 1852,gbif:1349560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.01,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Hylaeus brevicornis NYLANDER 1852,gbif:1349560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.01,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus brevicornis NYLANDER 1852,gbif:1349560,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.87,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Hylaeus brevicornis Nylander, 1852",gbif:1349560,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,4.6,mean,mm,3,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Hylaeus brevicornis Nylander, 1852",gbif:1349560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,0.98,mean,mm,5,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hylaeus calvus,gbif:1349964,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.16,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Hylaeus cf. confusus Nylander, 1852",gbif:1349755,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.2,mean,mm,3,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Hylaeus cf. imparilis Förster, 1871",gbif:1349389,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,5.2,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus clypearis,gbif:1349838,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.86,mean,mm,15,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hylaeus coloradensis,gbif:1349950,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.0538033,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus communis,gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,157,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus communis,gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,38,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus communis,gbif:1349795,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.86,mean,mm,NA,NA,NA,38,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus communis Nylander 1852,gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.28,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus communis Nylander 1852,gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.28,mean,mm,5,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Hylaeus communis Nylander 1852,gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.28,mean,mm,4,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus communis NYLANDER 1852,gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,0.96,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Hylaeus communis NYLANDER 1852,gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.96,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus communis Nylander 1852,gbif:1349795,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.09,mean,mm,16,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus communis NYLANDER 1852,gbif:1349795,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,0.83,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Hylaeus communis Nylander, 1852",gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.36,mean,mm,9,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Hylaeus communis Nylander, 1852",gbif:1349795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.96,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus confusus,gbif:1349755,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.04,mean,mm,NA,0.02,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus confusus,gbif:1349755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.31,mean,mm,NA,0.11,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus confusus,gbif:1349755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,39,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus confusus,gbif:1349755,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.86,mean,mm,NA,NA,NA,39,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus confusus NYLANDER 1852,gbif:1349755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.17,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Hylaeus confusus NYLANDER 1852,gbif:1349755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.17,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus confusus NYLANDER 1852,gbif:1349755,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,1,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus confusus Nylander 1853,gbif:1349755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.47,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus confusus Nylander 1853,gbif:1349755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.47,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Hylaeus confusus Nylander 1853,gbif:1349755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,3,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus confusus Nylander 1853,gbif:1349755,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.24,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Hylaeus confusus Nylander, 1852",gbif:1349755,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.27,mean,mm,11,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus cornutus,gbif:1349619,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Hylaeus cornutus,gbif:1349619,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Hylaeus cummunis,gbif:1349795,body size,thorax length,NA,mean thorax length,NA,species,5.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus difformis,gbif:1349802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.5,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus dilatatus,gbif:8457894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.34,mean,mm,6,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Hylaeus dilatatus (Kirby, 1802)",gbif:8457894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.2,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus duckei,gbif:1349576,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.53,mean,mm,8,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hylaeus episcopelis,gbif:1349860,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.131,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Hylaeus episcopelis,gbif:1349860,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.185,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus fedorica,gbif:1349831,body size,undefined,NA,NA,NA,species,4.25,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus gibbus,gbif:1349447,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,35,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus gibbus SAUNDERS 1850,gbif:1349447,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.26,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Hylaeus gibbus SAUNDERS 1850,gbif:1349447,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.26,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus gibbus SAUNDERS 1850,gbif:1349447,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.08,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Hylaeus gibbus Saunders, 1850",gbif:1349447,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.4,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus glacialis,gbif:1349419,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.14,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus glacialis,gbif:1349419,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.34,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus gredleri,gbif:1350025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,42,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus gredleri Förster 1871,gbif:1350025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.95,single observation,mm,1,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus gredleri Förster 1871,gbif:1350025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.95,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Hylaeus gredleri Förster 1871,gbif:1350025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.97,mean,mm,3,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Hylaeus gredleri Förster 1871,gbif:1350025,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,0.82,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Hylaeus gredleri Förster, 1871",gbif:1350025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.17,mean,mm,2,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus gredleri FÖRSTER 1871,gbif:1350025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,0.9,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus gredleri FÖRSTER 1871,gbif:1350025,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,0.78,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus hyalinatus,gbif:1349638,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.39,mean,mm,62,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus hyalinatus,gbif:1349638,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,40,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus hyalinatus,gbif:1349638,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.86,mean,mm,NA,NA,NA,40,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus hyalinatus,gbif:1349638,body size,undefined,NA,NA,NA,species,5.89,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus imparilis FÖRSTER 1871,gbif:1349389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,0.99,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus imparilis FÖRSTER 1871,gbif:1349389,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,0.85,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Hylaeus imparilis F�RSTER 1871,gbif:1349389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.99,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus incongruus,gbif:8083501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.69,mean,mm,33,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus incongruus,gbif:8083501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,41,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus incongruus,gbif:8083501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.86,mean,mm,NA,NA,NA,41,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Hylaeus intermedius Forster, 1871",gbif:10462569,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.33,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus leptocephalus,gbif:1349573,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.28,mean,mm,25,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus leptocephalus,gbif:1349573,body size,undefined,NA,NA,NA,species,5.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus mesillae,gbif:1349478,body size,undefined,NA,NA,NA,species,4,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hylaeus mesillae rudbeckiae,gbif:1349478,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.961038925,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hylaeus modestus,gbif:1349446,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.5,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hylaeus modestus,gbif:1349446,body size,front wing length,NA,NA,NA,species,3.7,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hylaeus modestus,gbif:1349446,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Hylaeus modestus,gbif:1349446,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Hylaeus modestus,gbif:1349446,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.08,mean,mm,6,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Hylaeus modestus,gbif:1349446,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,1.16,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus modestus,gbif:1349446,body size,undefined,NA,NA,NA,species,5.75,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hylaeus modestus,gbif:1349446,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.253246706,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus nigritus,gbif:1349433,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.62,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Hylaeus nigritus,gbif:1349433,body size,thorax length,NA,mean thorax length,NA,species,7,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Hylaeus nigritus (Fabricius, 1798)",gbif:1349433,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.59,mean,mm,5,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus picitipes,gbif:1349889,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.05,mean,mm,54,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Hylaeus pictipes,gbif:1349889,body size,undefined,NA,NA,NA,species,4.35,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hylaeus polifolii,gbif:1350015,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.06,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Hylaeus polifolii,gbif:1350015,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.91,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus punctatus,gbif:1350002,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.19,mean,mm,47,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Hylaeus punctatus (Brullé, 1832)",gbif:1350002,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,5.2,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus punctulatissimus,gbif:1349475,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.47,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus rinki,gbif:1349955,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.04,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus rinki,gbif:1349955,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.35,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus rinki,gbif:1349955,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,42,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Hylaeus rinki,gbif:1349955,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.67,mean,mm,NA,NA,NA,42,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hylaeus rudbeckiae,gbif:1349944,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.97,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus signatus,gbif:1349904,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.81,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus sinuatus,gbif:1349744,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.04,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus sinuatus,gbif:1349744,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.32,mean,mm,7,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Hylaeus sinuatus,gbif:1349744,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.84,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Hylaeus sinuatus,gbif:1349744,body size,thorax length,NA,mean thorax length,NA,species,5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Hylaeus sp,gbif:1349360,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,4.95,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Hylaeus sp.01,gbif:1349360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.06,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Hylaeus sp.01,gbif:1349360,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,0.909,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Hylaeus sp.02,gbif:1349360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Hylaeus sp.02,gbif:1349360,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,0.884,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Hylaeus sp.03,gbif:1349360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.14,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Hylaeus sp.03,gbif:1349360,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,0.975,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Hylaeus sp.04b,gbif:1349360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.88,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Hylaeus sp.04b,gbif:1349360,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,0.76,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Hylaeus taeniolatus Förster, 1871",gbif:1350077,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,4.7,mean,mm,6,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Hylaeus tricolor,gbif:1349807,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.9,mean,mm,6,NA,NA,NA,120,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus trinotatus PÉREZ 1895,gbif:1349737,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.48,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Hylaeus trinotatus PÉREZ 1895,gbif:1349737,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,1.25,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Hylaeus trinotatus P�REZ 1895,gbif:1349737,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.48,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Hylaeus variegatus,gbif:1349484,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.88,mean,mm,7,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Hylaeus variegatus (Fabricius, 1798)",gbif:1349484,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.37,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Hylaeus verticalis,gbif:1349713,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hylaeus wgsp1,gbif:1349360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.943722908,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Hylaeus wootoni,gbif:1349671,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.004328967,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Hylaeus_affinis_modestus,gbif:1349363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Hypanthidium divaricatum (Smith, 1854)  ",gbif:1338232,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,1.82,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Hypanthidium divaricatum (Smith, 1854)  ",gbif:1338232,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,3.322,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Hypanthidium mexicanum,gbif:1338240,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.77,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Hypanthidium sp. 1,gbif:1338217,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.91,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.ABANCI,gbif:1353690,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2043,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.ASTERIS,gbif:1353955,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.05,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2015,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.ATHABACENSE,gbif:1353918,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.55,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2045,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.BIRKAMNNI,gbif:1355048,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2052,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.CEPHALOTES,gbif:1354031,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.96,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2044,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.CINCTIPES,gbif:1353752,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2048,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.COERULUM,gbif:1355282,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2040,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.COMAGENENSE,gbif:1355209,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.63,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2050,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.CORIACEUM,gbif:1355016,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.59,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2046,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.CRESSONII,gbif:1354900,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2020,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.DREISBACHI,gbif:1354110,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.04,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2032,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.EPHIALTUM,gbif:9382313,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2023,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.FOXII,gbif:1354803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.59,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2053,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.HETEROGNATUM,gbif:1353747,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2041,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.HITCHENSI,gbif:9242523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.56,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2026,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.IMITATUM,gbif:9819061,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.98,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2022,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.INCONDIDUM,gbif:1354996,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.73,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2054,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.ISAWZUM,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2014,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.LAEVISSIMUM,gbif:1354253,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2017,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.LEUCOCOMUM,gbif:9337894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2018,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.LEUCOZONIUM,gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.57,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2056,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.LINEATULUM,gbif:1353678,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2019,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.MACOUPINENSE,gbif:1355201,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.67,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2051,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.MICHIGANENSIS,gbif:1354502,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2013,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.NIGROVIRIDE,gbif:1353688,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.91,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2029,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.OBLONGUM,gbif:1355183,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.65,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2034,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.OENOTHERAE,gbif:1355008,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.59,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2047,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.PARADMIRANTUM,gbif:1354450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2042,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.PERPUNCTATUM,gbif:1353845,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.64,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2030,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.PILOSUM,gbif:1353522,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.87,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2024,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.PLANATUM,gbif:9604696,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.05,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2031,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.QUEBECENSIS,gbif:1354589,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.02,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2049,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.SAGAX,gbif:1353809,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2016,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.SMILACINAE,gbif:9529425,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2036,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.SUBVERSANS,gbif:1353778,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.63,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2028,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.TAYLOREA,gbif:9549616,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2038,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.TEGULAREA,gbif:1355173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.98,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2021,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.TENAX,gbif:1355128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2039,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.TRIGEMINUM,gbif:9409945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.73,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2035,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.VERSANS,gbif:1354140,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2027,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.VERSATUM,gbif:1354129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2025,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.VIRIDATUM,gbif:1354004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.62,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2033,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.ZEPHYRUM,gbif:1353533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.45,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2037,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,L.ZONULUM,gbif:1355337,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2055,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasiglossum interruptum (Panzer, 1798)",gbif:1354864,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,4,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; France; Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglassum aeratum,gbif:1355135,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.06,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglassum albipes,gbif:1354990,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.64,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglassum albocinctum,gbif:1354941,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.52,mean,mm,35,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglassum bluethgeni,gbif:1354959,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,20,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Lasioglossum (Ctenonomia) Cameron,gbif:4571947,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.14,mean,mm,15,0.008,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,savannah
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) admirandum,gbif:1355231,body size,undefined,NA,NA,NA,species,5.25,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) bruneri,gbif:1354713,body size,undefined,NA,NA,NA,species,6.3,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) catallae,gbif:1354109,body size,undefined,NA,NA,NA,species,5.1,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) coeruleum,gbif:1355282,body size,undefined,NA,NA,NA,species,7,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) ellisiae,gbif:8564647,body size,undefined,NA,NA,NA,species,4.9,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) ephialtum,gbif:9382313,body size,undefined,NA,NA,NA,species,5.31,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) gotham,gbif:9503447,body size,undefined,NA,NA,NA,species,6.6,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) hitchensi,gbif:9242523,body size,undefined,NA,NA,NA,species,4.85,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) illinoense,gbif:1355142,body size,undefined,NA,NA,NA,species,4.7,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) imitatum,gbif:9819061,body size,undefined,NA,NA,NA,species,4.18,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Dialictus) incompletum,gbif:1355006,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.94,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) laevissimum,gbif:1354253,body size,undefined,NA,NA,NA,species,6.11,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) leucocomum,gbif:9337894,body size,undefined,NA,NA,NA,species,5.4,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) leucocomum/pilosum,gbif:1353501,body size,undefined,NA,NA,NA,species,5.7,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) lineatulum,gbif:1353678,body size,undefined,NA,NA,NA,species,6,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) lionotum,gbif:1353659,body size,undefined,NA,NA,NA,species,4.3,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) michiganense,gbif:1354502,body size,undefined,NA,NA,NA,species,5.55,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) pilosum,gbif:1353522,body size,undefined,NA,NA,NA,species,6,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) smilacinae,gbif:9529425,body size,undefined,NA,NA,NA,species,6.6,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Dialictus) sp. 1,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Dialictus) sp. 1,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.65,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Dialictus) sp. 2,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.33,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Dialictus) sp. 2,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.82,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Dialictus) sp. 3,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.69,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Dialictus) sp. 3,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.96,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Dialictus) sp. B,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Dialictus) sp. C,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Dialictus) sp. E,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Dialictus) sp. F,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) tegulare,gbif:1355173,body size,undefined,NA,NA,NA,species,5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) tegulare/ellisiae,gbif:1353501,body size,undefined,NA,NA,NA,species,5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Dialictus) tegulariforme,gbif:1355165,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.88,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) versatum,gbif:1354129,body size,undefined,NA,NA,NA,species,5.92,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) weemsi,gbif:1353864,body size,undefined,NA,NA,NA,species,4.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Dialictus) zephyrum,gbif:1353533,body size,undefined,NA,NA,NA,species,6,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp.,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,"Lasioglossum (Evylaeus) sp. ""red abd.""",gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.36,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Evylaeus) sp. 1,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Evylaeus) sp. 1,gbif:4677124,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.42,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Evylaeus) sp. 2,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Evylaeus) sp. 2,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Evylaeus) sp. 2,gbif:4677124,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.99,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum (Evylaeus) sp. 3,gbif:4677124,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.54,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp. A,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp. B,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp. C,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.64,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp. D,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.68,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp. E,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp. F,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp. G,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.89,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Evylaeus) sp. I,gbif:4677124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.65,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Hemihalictus) birkmanni,gbif:1355048,body size,undefined,NA,NA,NA,species,5.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Hemihalictus) pectorale,gbif:1355048,body size,undefined,NA,NA,NA,species,5.65,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Hemihalictus) spp,gbif:1353501,body size,undefined,NA,NA,NA,species,6,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Lasioglossum (Ipomalictus) Pauly,gbif:4674888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.13,mean,mm,41,0.004,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Lasioglossum) coriaceum,gbif:1355016,body size,undefined,NA,NA,NA,species,9,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Lasioglossum) mellipes,gbif:1354697,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.08,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Lasioglossum (Lasioglossum) titusi,gbif:1354871,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.93,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Lasioglossum (Leuchalictus) leucozonium,gbif:1353805,body size,undefined,NA,NA,NA,species,8,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 1,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.416,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 13,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.801,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 13,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.769,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 13,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.882,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 30,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.23,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 30,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 36,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.71,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 37,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.141,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 39,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.082,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 39,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.131,mean,mm,NA,NA,NA,NA,NA,2014,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 39,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.069,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 40,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.067,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 40,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.124,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 40,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.185,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 47,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.225,mean,mm,NA,NA,NA,NA,NA,2014,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 47,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.247,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 47,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.175,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 49,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.146,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 50,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 51,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 51,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 51,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.161,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 52,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.806,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 55,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 55,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum 55,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.906,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.7,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.74,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.67,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.74,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.74,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.72,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum A,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2018,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum abundipunctum,gbif:9620203,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.337662288,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum acuminatum,gbif:1355279,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.92,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum admirandum,gbif:1355231,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6,mean,mm,13,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum admirandum,gbif:1355231,body size,front wing length,NA,NA,NA,species,4,mean,mm,13,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum admirandum,gbif:1355231,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,13,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum admirandum,gbif:1355231,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.4,mean,mm,13,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum aeratum (KIRBY 1802),gbif:1355135,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,0.92,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum aeratum (KIRBY 1802),gbif:1355135,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.92,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum aeratum (KIRBY 1802),gbif:1355135,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.26,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum aeratum (Kirby, 1802)",gbif:1355135,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.98,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum aff tenax,gbif:1355128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.870129838,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum aff. nevadense,gbif:1353867,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum aff. nevadense,gbif:1353867,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.51,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum albipenne,gbif:1355000,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,6.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum albipenne,gbif:1355000,body size,front wing length,NA,NA,NA,individual,3.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum albipenne,gbif:1355000,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum albipenne,gbif:1355000,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum albipes,gbif:1354990,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.19,mean,mm,NA,0.06,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum albipes,gbif:1354990,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.64,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum albipes,gbif:1354990,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.58,mean,mm,NA,0.18,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum albipes,gbif:1354990,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,43,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Lasioglossum albipes,gbif:1354990,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum albipes,gbif:1354990,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.86,mean,mm,NA,NA,NA,43,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Lasioglossum albipes,gbif:1354990,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum albipes (Fabricius 1781),gbif:1354990,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,single observation,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum albipes (Fabricius 1781),gbif:1354990,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum albipes (Fabricius 1781),gbif:1354990,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.17,mean,mm,120,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum albipes (Fabricius, 1781)",gbif:1354990,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.48,mean,mm,15,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum albocinctum (Lucas, 1849)",gbif:1354941,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,11.25,mean,mm,10,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum albohirtum,gbif:1354923,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.27,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum albohirtum,gbif:1354923,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.74,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum alpigenum,gbif:1354743,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.15,mean,mm,NA,0.02,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum alpigenum,gbif:1354743,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.21,mean,mm,NA,0.1,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum angusticeps,gbif:1354521,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum anhypops,gbif:1354462,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.929025225,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum argammon,gbif:10836051,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum argammon,gbif:10836051,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.003,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum argammon,gbif:10836051,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.939,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum argemonis,gbif:1354126,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.44,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum argemonis,gbif:1354126,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.96,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum bavaricum,gbif:1355263,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.14,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum bavaricum,gbif:1355263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.18,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum brevicorne,gbif:1354819,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.33,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum brevicorne (Schenck, 1869)",gbif:1354819,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.5,mean,mm,17,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum brevicorne (Schenck, 1870)",gbif:1354819,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.43,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum brunneiventre,gbif:1354684,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.84,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum brunneiventre,gbif:1354684,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.17,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum brunneiventre,gbif:1354684,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.943722908,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum calceatum,gbif:1354476,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.24,mean,mm,NA,0.06,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum calceatum,gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.82,mean,mm,167,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum calceatum,gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.79,mean,mm,NA,0.13,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum calceatum,gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,44,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum calceatum,gbif:1354476,body size,thorax length,NA,mean thorax length,NA,species,8.6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Lasioglossum calceatum,gbif:1354476,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,0.9,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum calceatum,gbif:1354476,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.68,mean,mm,NA,NA,NA,44,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Lasioglossum calceatum,gbif:1354476,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.3,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum calceatum (Scopoli 1763),gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.74,mean,mm,52,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum calceatum (Scopoli 1763),gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.74,mean,mm,52,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum calceatum (Scopoli 1763),gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.74,mean,mm,25,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum calceatum (SCOPOLI 1763),gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.74,mean,mm,14,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum calceatum (SCOPOLI 1763),gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.74,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum calceatum (Scopoli 1763),gbif:1354476,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.35,mean,mm,8,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum calceatum (SCOPOLI 1763),gbif:1354476,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.34,mean,mm,14,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum calceatum (Scopoli, 1763)",gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.72,mean,mm,31,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum calceatum (Scopoli, 1763)",gbif:1354476,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.74,mean,mm,5,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum callidum,gbif:1354434,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,7.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum callidum,gbif:1354434,body size,front wing length,NA,NA,NA,individual,4.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum callidum,gbif:1354434,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum callidum,gbif:1354434,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum carlinvillense,gbif:8698722,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,4.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum carlinvillense,gbif:8698722,body size,front wing length,NA,NA,NA,individual,3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum carlinvillense,gbif:8698722,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum carlinvillense,gbif:8698722,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cattelae,gbif:1354109,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.6,mean,mm,8,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cattelae,gbif:1354109,body size,front wing length,NA,NA,NA,species,4,mean,mm,8,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cattelae,gbif:1354109,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,8,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cattelae,gbif:1354109,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.5,mean,mm,8,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum cf_aliud,gbif:1354796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum cf_aliud,gbif:1354796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum cf_aliud,gbif:1354796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum cf_aliud,gbif:1354796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum cf_aliud,gbif:1354796,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum cf. macroprosopum,gbif:9866414,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum cf. macroprosopum,gbif:9866414,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.54,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum cf. perparvum,gbif:1353884,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.71,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum cf. perparvum,gbif:1353884,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum cf. robustum,gbif:1354247,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum cf. robustum,gbif:1354247,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.66,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cincitipes,gbif:1353752,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,,7.4,,mm,,,,NA,NA,early spring 2013,NA,,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cincitipes,gbif:1353752,body size,front wing length,NA,NA,NA,,5.7,,mm,,,,NA,NA,early spring 2013,NA,,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cincitipes,gbif:1353752,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,,25-50,,percentage,,,,NA,NA,early spring 2013,NA,,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coeruleum,gbif:1355282,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,6.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coeruleum,gbif:1355282,body size,front wing length,NA,NA,NA,individual,4.9,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coeruleum,gbif:1355282,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coeruleum,gbif:1355282,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum coeruleum,gbif:1355282,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.35,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.24,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum comulum,gbif:1355174,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coraceum,gbif:1355016,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.1,mean,mm,14,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coreopsis,gbif:1355024,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,5.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coreopsis,gbif:1355024,body size,front wing length,NA,NA,NA,individual,3.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coreopsis,gbif:1355024,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coreopsis,gbif:1355024,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coriaceum,gbif:1355016,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.8,mean,mm,14,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coriaceum,gbif:1355016,body size,front wing length,NA,NA,NA,species,7.7,mean,mm,14,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum coriaceum,gbif:1355016,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,14,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum coriaceum,gbif:1355016,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,2.02,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum coriaceum,gbif:1355016,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.95,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum corvinum,gbif:1354994,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.29,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cressonii,gbif:1354900,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.5,mean,mm,10,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cressonii,gbif:1354900,body size,front wing length,NA,NA,NA,species,4.5,mean,mm,10,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cressonii,gbif:1354900,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,50-75,mean,percentage,10,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum cressonii,gbif:1354900,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.4,mean,mm,10,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum cressonii,gbif:1354900,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.18,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum cupromicans,gbif:1354781,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.12,mean,mm,NA,0.02,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum cupromicans,gbif:1354781,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,0.09,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum deliensis,gbif:1354489,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.62,mean,mm,NA,NA,NA,B11,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum deliensis,gbif:1354489,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.19,mean,mm,NA,NA,NA,B11,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.7,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.72,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.69,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.65,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.72,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.71,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.74,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum deludens,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum discum,gbif:1354270,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,4.4,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum discum,gbif:1354270,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum discum (SMITH 1853),gbif:1354270,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.14,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum discum (SMITH 1853),gbif:1354270,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.14,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum discum (SMITH 1853),gbif:1354270,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.85,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum discum (Smith, 1853)",gbif:1354270,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.5,mean,mm,13,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum discum (Smith, 1853)",gbif:1354270,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.33,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum diversopunctatum,gbif:1354185,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.195,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum diversopunctatum,gbif:1354185,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.124,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum diversopunctatum,gbif:1354185,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum diversopunctatum,gbif:1354185,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.185,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum egregium,gbif:1353932,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.118000218,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum ellisiae,gbif:8564647,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum ellisiae,gbif:8564647,body size,front wing length,NA,NA,NA,individual,3.9,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum ellisiae,gbif:8564647,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum ellisiae,gbif:8564647,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum ephialtum,gbif:9382313,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,6.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum ephialtum,gbif:9382313,body size,front wing length,NA,NA,NA,individual,4.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum ephialtum,gbif:9382313,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum ephialtum,gbif:9382313,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum euboeense,gbif:1353590,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.3,mean,mm,34,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum f14,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.374025923,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum foxii,gbif:1354803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum fratellum,gbif:1354773,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.16,mean,mm,NA,0.06,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum fratellum,gbif:1354773,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,NA,0.09,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum fratellum,gbif:1354773,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,45,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum fratellum,gbif:1354773,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,46,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum fratellum,gbif:1354773,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.68,mean,mm,NA,NA,NA,45,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum fratellum,gbif:1354773,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.38,mean,mm,NA,NA,NA,46,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum fulvicorne,gbif:1354651,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.16,mean,mm,NA,0.06,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum fulvicorne,gbif:1354651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.31,mean,mm,74,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum fulvicorne,gbif:1354651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.33,mean,mm,NA,0.11,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum fulvicorne,gbif:1354651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,47,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum fulvicorne,gbif:1354651,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum fulvicorne,gbif:1354651,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.38,mean,mm,NA,NA,NA,47,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum fulvicorne (Kirby 1802),gbif:1354651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.35,single observation,mm,1,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum fulvicorne (Kirby 1802),gbif:1354651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.35,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum fulvicorne (Kirby 1802),gbif:1354651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.35,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum fulvicorne (Kirby 1802),gbif:1354651,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,1.84,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum fulvicorne (Kirby, 1802)",gbif:1354651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.36,mean,mm,44,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum fuscipenne,gbif:1354575,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum fuscipenne,gbif:1354575,body size,front wing length,NA,NA,NA,individual,7.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum fuscipenne,gbif:1354575,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum fuscipenne,gbif:1354575,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum glabriusculum,gbif:1354397,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,0.73,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum glabriusculum,gbif:1354397,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.73,mean,mm,29,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum glabriusculum,gbif:1354397,body size,thorax length,NA,mean thorax length,NA,species,4.6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum glabriusculum (MORAWITZ 1872),gbif:1354397,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,0.78,mean,mm,7,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum glabriusculum (MORAWITZ 1872),gbif:1354397,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.78,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum glabriusculum (MORAWITZ 1872),gbif:1354397,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.08,mean,mm,7,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum glabriusculum (Morawitz, 1872)",gbif:1354397,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,4.5,mean,mm,456,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum glabriusculum (Morawitz, 1872)",gbif:1354397,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.81,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum gloriosum,gbif:1354357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum griseolum,gbif:1354132,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.93,mean,mm,46,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum griseolum (MORAWITZ 1872),gbif:1354132,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.07,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum griseolum (MORAWITZ 1872),gbif:1354132,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.07,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum griseolum (MORAWITZ 1872),gbif:1354132,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.45,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum griseolum (Morawitz, 1872)",gbif:1354132,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,4.5,mean,mm,197,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum griseolum (Morawitz, 1872)",gbif:1354132,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum halictioides,gbif:9787537,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.87,mean,mm,NA,NA,NA,B12,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum halictioides,gbif:9787537,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.51,mean,mm,NA,NA,NA,B12,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum halictoides,gbif:9787537,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.67,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum hitchensi,gbif:9242523,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.6,mean,mm,591,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum hitchensi,gbif:9242523,body size,front wing length,NA,NA,NA,species,3.7,mean,mm,591,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum hitchensi,gbif:9242523,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,591,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum hitchensi,gbif:9242523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.2,mean,mm,591,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum hitchensi,gbif:9242523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.72,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.891,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum hudsoniellum,gbif:1355339,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum imbrex,gbif:11440020,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.95,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum imbrex,gbif:11440020,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.31,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum imitatum,gbif:9819061,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,4.2,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum imitatum,gbif:9819061,body size,front wing length,NA,NA,NA,species,3.1,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum imitatum,gbif:9819061,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum imitatum,gbif:9819061,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,0.9,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum imitatum,gbif:9819061,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.82,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum incompletum,gbif:1355006,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.99,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum incompletum,gbif:1355006,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.37,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum inconditum,gbif:1354996,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.25,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,NA,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum interruptum,gbif:1354864,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.23,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum interruptum,gbif:1354864,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.23,mean,mm,61,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum interruptum (PANZER 1798),gbif:1354864,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.4,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum interruptum (PANZER 1798),gbif:1354864,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.4,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum interruptum (PANZER 1798),gbif:1354864,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,1.89,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum interruptum (Panzer, 1798)",gbif:1354864,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.2,mean,mm,4,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum julipile,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.929,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum julipile,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum knereri,gbif:10574005,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.14,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum knereri,gbif:10574005,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.57,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum laevigatum,gbif:1354272,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.25,mean,mm,NA,0.08,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum laevigatum,gbif:1354272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.84,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum laevigatum,gbif:1354272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.84,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum laevigatum,gbif:1354272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.79,mean,mm,NA,0.09,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum laevigatum (Kirby 1802),gbif:1354272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.21,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum laevigatum (Kirby 1802),gbif:1354272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.21,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum laevigatum (Kirby 1802),gbif:1354272,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.94,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum laevigatum (Kirby, 1802)",gbif:1354272,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Austria; France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum laevissimum,gbif:1354253,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,5.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum laevissimum,gbif:1354253,body size,front wing length,NA,NA,NA,individual,4.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum laevissimum,gbif:1354253,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum laevissimum,gbif:1354253,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum laevissimum,gbif:1354253,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.844155813,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lampronotum,gbif:1354179,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.732,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum laterale (Brullé. 1832),gbif:1354133,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.86,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum laterale (Brullé. 1832),gbif:1354133,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.49,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum laterale (BRULL� 1832),gbif:1354133,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.86,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum laterale (Brulle, 1832)",gbif:1354133,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.86,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum laticeps,gbif:1354102,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.14,mean,mm,NA,0.02,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum laticeps,gbif:1354102,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,284,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum laticeps,gbif:1354102,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,NA,0.07,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum laticeps (Schenck 1868),gbif:1354102,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum laticeps (Schenck 1868),gbif:1354102,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum laticeps (Schenck 1868),gbif:1354102,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,2.04,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum laticeps (Schenck 1869),gbif:1354102,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.59,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum laticeps (Schenck 1869),gbif:1354102,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.13,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum laticeps (Schenck, 1869)",gbif:1354102,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.2,mean,mm,4,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum laticeps (Schenck, 1870)",gbif:1354102,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.39,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum laticeps (SCHENK 1869),gbif:1354102,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.58,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum lativentre,gbif:1354007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum lativentre,gbif:1354007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,21,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum lativentre,gbif:1354007,body size,thorax length,NA,mean thorax length,NA,species,6.8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum lativentre (Schenck 1853),gbif:1354007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum lativentre (Schenck 1853),gbif:1354007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum lativentre (SCHENCK 1853),gbif:1354007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.5,mean,mm,6,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum lativentre (SCHENCK 1853),gbif:1354007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.5,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum lativentre (Schenck 1853),gbif:1354007,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.04,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum lativentre (SCHENCK 1853),gbif:1354007,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.02,mean,mm,6,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum lativentre (Schenck, 1853)",gbif:1354007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,1.52,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum lativentre (Schenk, 1853)",gbif:1354007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,6,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Austria; France,NA,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum leucocomus,gbif:9337894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.09,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum leucopus,gbif:9337894,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.06,mean,mm,NA,0,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum leucopus,gbif:9337894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.93,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum leucopus,gbif:9337894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,48,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum leucopus,gbif:9337894,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.38,mean,mm,NA,NA,NA,48,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum leucopus (Kirby, 1802)",gbif:9337894,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.08,mean,mm,7,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum leucozonium,gbif:1353805,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.26,mean,mm,NA,0.05,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum leucozonium,gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.91,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum leucozonium,gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.91,mean,mm,138,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum leucozonium,gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.77,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum leucozonium,gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.84,mean,mm,NA,0.19,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum leucozonium,gbif:1353805,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum leucozonium (Schrank 1781),gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,16,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum leucozonium (Schrank 1781),gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,16,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum leucozonium (Schrank 1781),gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,4,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum leucozonium (SCHRANK 1781),gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.63,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum leucozonium (SCHRANK 1781),gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.63,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum leucozonium (Schrank 1781),gbif:1353805,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,2.66,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum leucozonium (SCHRANK 1781),gbif:1353805,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.2,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum leucozonium (Schrank, 1781)",gbif:1353805,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.9,mean,mm,52,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum leucozonium (Schrank, 1781)",gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,1.98,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum leucozonium (Schrank, 1781)",gbif:1353805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.72,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Austria; France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lilianae,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum lilliputense,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.850649319,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum limbellum,gbif:1353715,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.32,mean,mm,6,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum limbellum (Morawitz, 1876)",gbif:1353715,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,6.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum lineare,gbif:1353697,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,395,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum lineare (SCHENCK 1869),gbif:1353697,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.23,mean,mm,71,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum lineare (SCHENCK 1869),gbif:1353697,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.23,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum lineare (SCHENCK 1869),gbif:1353697,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.67,mean,mm,71,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum lineare (Schenck, 1870)",gbif:1353697,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.39,mean,mm,6,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum lineare (Schenk, 1869)",gbif:1353697,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.36,mean,mm,20,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum lineatulum,gbif:1353669,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,1.29,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum lineatulum,gbif:1353669,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.29,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum lucidulum,gbif:1355330,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,6,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum lucidulum (Schenck, 1861)",gbif:1355330,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,0.96,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.41,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.25,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.32,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.35,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.41,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.33,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.41,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.41,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.37,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.43,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.42,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.51,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.48,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.31,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.4,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.49,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum lusorium,gbif:1355290,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum macoupinense,gbif:1355201,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.19,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum majus,gbif:1355095,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.88,mean,mm,17,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum malachurum,gbif:1355085,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.79,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum malachurum,gbif:1355085,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.79,mean,mm,838,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum malachurum,gbif:1355085,body size,thorax length,NA,mean thorax length,NA,species,8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum malachurum (KIRBY 1802),gbif:1355085,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.48,mean,mm,13,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum malachurum (KIRBY 1802),gbif:1355085,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.48,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum malachurum (KIRBY 1802),gbif:1355085,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2,mean,mm,13,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum malachurum (Kirby, 1802)",gbif:1355085,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.2,mean,mm,897,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum malachurum (Kirby, 1802)",gbif:1355085,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,90,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), southern Spain (Montilla Moriles in Andalusia; 37°35′N, 4°38′W), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Austria; Spain; France,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum marginatum,gbif:1355018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.59,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum marginatum,gbif:1355018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.59,mean,mm,472,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum marginatum (BRULLÉ 1832),gbif:1355018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.78,mean,mm,198,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum marginatum (BRULLÉ 1832),gbif:1355018,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.39,mean,mm,198,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum marginatum (BRULL� 1832),gbif:1355018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.78,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum marginatum (Brulle, 1832)",gbif:1355018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.65,mean,mm,79,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum marinense,gbif:1354997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.40259735,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum mediterraneum,gbif:1354833,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.34,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum mellipes,gbif:1354697,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.06,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum mellipes,gbif:1354697,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.77,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum mesosclerum,gbif:1354615,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.31,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum mesosclerum (PÉREZ 1903),gbif:1354615,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.22,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum mesosclerum (PÉREZ 1903),gbif:1354615,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.65,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum mesosclerum (P�REZ 1903),gbif:1354615,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.22,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum mesosclerum (Perez, 1903)",gbif:1354615,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.22,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.16,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.033,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.23,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum microlepoides,gbif:1354482,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum microlepoides,gbif:1354482,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.59,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum minutissimum,gbif:1354422,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,0.86,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum minutissimum,gbif:1354422,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.86,mean,mm,21,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum minutissimum (KIRBY 1802),gbif:1354422,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,0.8,mean,mm,7,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum minutissimum (KIRBY 1802),gbif:1354422,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.8,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum minutissimum (KIRBY 1802),gbif:1354422,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.1,mean,mm,7,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum minutissimum (Kirby, 1802)",gbif:1354422,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,4.25,mean,mm,13,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum minutissimum (Kirby, 1802)",gbif:1354422,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8,mean,mm,6,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum minutulum,gbif:1354398,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.25,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum minutulum (Schenck, 1853)",gbif:1354398,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,1.19,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lasioglossum morio,gbif:1354206,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,6.81,mean,mm,7,0.26,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lasioglossum morio,gbif:1354206,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,7,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum morio,gbif:1354206,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.09,mean,mm,NA,0.01,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum morio,gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum morio,gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.1,mean,mm,358,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum morio,gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,NA,0.02,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum morio,gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,49,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum morio,gbif:1354206,body size,thorax length,NA,mean thorax length,NA,species,5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Lasioglossum morio,gbif:1354206,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum morio,gbif:1354206,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.38,mean,mm,NA,NA,NA,49,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Lasioglossum morio,gbif:1354206,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.2,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum morio (Fabricius 1793),gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum morio (Fabricius 1793),gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum morio (Fabricius 1793),gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,3,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum morio (Fabricius 1793),gbif:1354206,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.42,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum morio (Fabricius, 1793)",gbif:1354206,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.2,mean,mm,220,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum morio (Fabricius, 1793)",gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.12,mean,mm,185,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum morio (Frabricius, 1793)",gbif:1354206,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,9,NA,NA,NA,NA,2016,NA,NA,adult,"North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,France; Romania,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.87,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum morrilli,gbif:1354173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum nesiotus,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.06,mean,mm,NA,NA,NA,B15,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum nesiotus,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.46,mean,mm,NA,NA,NA,B15,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum nevadense,gbif:1353867,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.89,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum nevadense,gbif:1353867,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum nigrescens,gbif:1353816,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.01,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum nigrescens,gbif:1353816,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum nigripes,gbif:1353756,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.97,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum nigripes,gbif:1353756,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.97,mean,mm,6,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum nigripes,gbif:1353756,body size,thorax length,NA,mean thorax length,NA,species,12,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum nigripes (LEPELETIER 1841),gbif:1353756,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.94,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum nigripes (LEPELETIER 1841),gbif:1353756,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.94,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum nigripes (LEPELETIER 1841),gbif:1353756,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.59,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum nigripes (Lepeletier, 1841)",gbif:1353756,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,10,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum nigripes (Lepeltier, 1841)",gbif:1353756,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.94,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum nigroviride,gbif:1353688,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,7.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum nigroviride,gbif:1353688,body size,front wing length,NA,NA,NA,individual,5.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum nigroviride,gbif:1353688,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum nigroviride,gbif:1353688,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum nigroviride,gbif:1353688,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.74,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum nigroviride,gbif:1353688,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.389610338,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum nitidiusculum (Kirby 1802),gbif:1353610,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.25,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum nitidiusculum (Kirby 1802),gbif:1353610,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.25,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum nitidiusculum (Kirby 1802),gbif:1353610,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.71,mean,mm,2,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum nitidulum,gbif:1353592,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.24,mean,mm,149,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum nitidulum (Fabricius, 1804)",gbif:1353592,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.5,mean,mm,201,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum nr.dialictus,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.159090866,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum nymphale,gbif:1355220,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,4.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum nymphale,gbif:1355220,body size,front wing length,NA,NA,NA,individual,2.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum nymphale,gbif:1355220,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum nymphale,gbif:1355220,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,0.9,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum oblongum,gbif:1355183,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum obnubilum,gbif:1355175,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8311688,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum obscurum,gbif:1355124,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,5.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum obscurum,gbif:1355124,body size,front wing length,NA,NA,NA,individual,4.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum obscurum,gbif:1355124,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum obscurum,gbif:1355124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum occidens,gbif:1355106,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.26,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum occidentale,gbif:1355096,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.9350649,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum pallens,gbif:1354551,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.59,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum pallens,gbif:1354551,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.59,mean,mm,12,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum paradmirandum,gbif:1354450,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.6,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum paradmirandum,gbif:1354450,body size,front wing length,NA,NA,NA,species,3.8,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum paradmirandum,gbif:1354450,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum paradmirandum,gbif:1354450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.1,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum parvulum (Schenck, 1853)",gbif:1354342,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,1.21,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum pauperatum,gbif:1354274,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,7,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum pauperatum (Brullé, 1832)",gbif:1354274,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,5,mean,mm,6,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum pauperatum (Brulle, 1832)",gbif:1354274,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.08,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"southern Spain (Montilla Moriles in Andalusia; 37°35′N, 4°38′W), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Spain; France,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lasioglossum pauxillum,gbif:1354263,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,individual,5.71,single observation,mm,1,NA,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lasioglossum pauxillum,gbif:1354263,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,individual,70%,single observation,NA,1,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum pauxillum,gbif:1354263,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.12,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum pauxillum,gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.24,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum pauxillum,gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.24,mean,mm,565,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum pauxillum,gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.93,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum pauxillum,gbif:1354263,body size,thorax length,NA,mean thorax length,NA,species,5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum pauxillum (Schenck 1853),gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,120,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum pauxillum (Schenck 1853),gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,120,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum pauxillum (Schenck 1853),gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,70,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum pauxillum (SCHENCK 1853),gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.16,mean,mm,6,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum pauxillum (SCHENCK 1853),gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.16,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum pauxillum (Schenck 1853),gbif:1354263,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.54,mean,mm,120,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum pauxillum (SCHENCK 1853),gbif:1354263,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.58,mean,mm,6,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum pauxillum (Schenck, 1853)",gbif:1354263,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.25,mean,mm,19,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum pauxillum (Schenck, 1853)",gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.08,mean,mm,256,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum pauxillum (Schenck, 1853)",gbif:1354263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.18,mean,mm,25,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Austria; France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum pectinatum,gbif:1354199,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.4,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum pectinatum,gbif:1354199,body size,front wing length,NA,NA,NA,species,5.6,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum pectinatum,gbif:1354199,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum pectinatum,gbif:1354199,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.7,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum pectorale,gbif:1354189,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum pectorale,gbif:1354189,body size,front wing length,NA,NA,NA,individual,4.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum pectorale,gbif:1354189,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum pectorale,gbif:1354189,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum pectorale,gbif:1354189,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.45,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum perpunctatum,gbif:1353845,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,1.31,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum perpunctatum,gbif:1353845,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum petrellum,gbif:1353748,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.14,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum petrellum,gbif:1353748,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.57,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum pilosum,gbif:1353522,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.28,mean,mm,5,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum pilosum,gbif:1353522,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.21,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum pilosum?,gbif:1353522,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum platyparium,gbif:1355322,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.4,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum platyparium,gbif:1355322,body size,front wing length,NA,NA,NA,species,3.1,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum platyparium,gbif:1355322,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum platyparium,gbif:1355322,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.3,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum politum,gbif:1355230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,0.82,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum politum,gbif:1355230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.82,mean,mm,1045,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum politum (SCHENCK 1853),gbif:1355230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,0.91,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum politum (SCHENCK 1853),gbif:1355230,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.26,mean,mm,3,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum politum (Schenck, 1853)",gbif:1355230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,5.1,mean,mm,118,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum prasinum,gbif:1355107,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.72,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum profundum,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum proximatum,gbif:1355030,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.43,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum pruinosum,gbif:1354999,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.205,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum pruinosum,gbif:1354999,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.124,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum punctatissimum,gbif:1354742,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum punctatissimum,gbif:1354742,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,81,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum punctatissimum (SCHENCK 1853),gbif:1354742,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.14,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum punctatissimum (SCHENCK 1853),gbif:1354742,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.56,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum punctatissimum (Schenck, 1853)",gbif:1354742,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,5.4,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum punctatissimum (Schenck, 1853)",gbif:1354742,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.19,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,"Lasioglossum punctatissimum (SCHENCK, 1853)",gbif:1354742,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.14,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum punctatoventre,gbif:1354734,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum punctatoventre,gbif:1354734,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.68,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum puncticolle,gbif:1354699,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.49,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum puncticolle,gbif:1354699,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.49,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum puncticolle,gbif:1354699,body size,thorax length,NA,mean thorax length,NA,species,6.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum puncticolle (MORAWITZ 1872),gbif:1354699,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.53,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum puncticolle (MORAWITZ 1872),gbif:1354699,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.06,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum puncticolle (Morawitz, 1872)",gbif:1354699,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.53,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum pygmaeum,gbif:1354645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,32,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum pygmaeum (SCHENCK 1853),gbif:1354645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum pygmaeum (SCHENCK 1853),gbif:1354645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum pygmaeum (SCHENCK 1853),gbif:1354645,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.36,mean,mm,4,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum pygmaeum (Schenck, 1853)",gbif:1354645,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,5.5,mean,mm,3,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum pygmaeum (Schenck, 1853)",gbif:1354645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.12,mean,mm,9,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum pygmaeum (Schenck, 1853)",gbif:1354645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.15,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum quadrinotatum,gbif:1354607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.72,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum quadrinotatum,gbif:1354607,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.3,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum quadrinotatum (KIRBY 1802),gbif:1354607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.72,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum quadrinotatum (Kirby, 1802)",gbif:1354607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.72,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum rufitarse,gbif:1354058,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,50,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Lasioglossum rufitarse,gbif:1354058,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.38,mean,mm,NA,NA,NA,50,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum ruidosense,gbif:1353909,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.087256453,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum sabulosum,gbif:1353837,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum scitulum,gbif:1355364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.31,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum sedi,gbif:1355244,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.017570626,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semibrunneum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum semicaerulean,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.311688263,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.22,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.24,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.134,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.163,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.21,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.21,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.257,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.973,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.911,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.21,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2017,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.075,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.236,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.142,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.109,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.113,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.216,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.126,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.184,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.143,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.163,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.211,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.077,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum semicaeruleum,gbif:1355186,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.162,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum semilucens,gbif:1355126,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.36,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum sexnotatum,gbif:1354966,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.07,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum sexstrigatum,gbif:1354952,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.55,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.86,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.47,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.53,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.88,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.58,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.01,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.46,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.87,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.81,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.81,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.85,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.82,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.88,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.81,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.94,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.59,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.92,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.89,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.8,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.85,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.5,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.56,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.67,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.71,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.63,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.73,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.64,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.85,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.83,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.74,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.69,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.93,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.65,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.76,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.66,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.78,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.61,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.68,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.57,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum sisymbrii,gbif:1354683,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.51,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum sisymbrii,gbif:1354683,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.92207785,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum sp,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.33,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum sp,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.33,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum sp 1,gbif:1353501,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,5.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum sp 1,gbif:1353501,body size,front wing length,NA,NA,NA,individual,3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum sp 1,gbif:1353501,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum sp 1,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Lasioglossum sp. 1,gbif:1353501,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,5.2,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Lasioglossum sp. 1,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.28,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp. 1_09,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.3,mean,mm,12,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp. 1_09,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.76,mean,mm,12,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Lasioglossum sp. 2,gbif:1353501,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,4.4,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum sp. 2,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.33,mean,mm,NA,NA,NA,B14,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Lasioglossum sp. 2,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.06,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum sp. 2,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.81,mean,mm,NA,NA,NA,B14,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp. 2_09,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.38,mean,mm,47,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp. 2_09,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.87,mean,mm,47,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Lasioglossum sp. 3,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.18,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp. 3_09,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.75,mean,mm,2,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp. 3_09,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.35,mean,mm,2,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Lasioglossum sp. 4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.09,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp. 4_09,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2,mean,mm,47,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp. 4_09,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.67,mean,mm,47,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp.1_10,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.97,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp.1_10,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.63,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.2,gbif:1353501,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,8.64,mean,mm,NA,0.17,std error,18,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.2,gbif:1353501,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,4.72,mean,mm,NA,0.33,std error,18,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.2,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.73,mean,mm,NA,0.03,std error,18,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.2,gbif:1353501,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,4.58,mean,mm,NA,0.2,std error,18,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.2,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,3.75,mean,mm,NA,0.16,std error,18,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp.2_10,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.08,mean,mm,9,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp.2_10,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.48,mean,mm,9,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.3,gbif:1353501,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,6.7,mean,mm,NA,0.1,std error,17,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.3,gbif:1353501,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,3.32,mean,mm,NA,0.1,std error,17,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.3,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.25,mean,mm,NA,0.04,std error,17,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.3,gbif:1353501,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,3.48,mean,mm,NA,0.12,std error,17,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.3,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,3.15,mean,mm,NA,0.1,std error,17,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp.3_10,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.73,mean,mm,5,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp.3_10,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.32,mean,mm,5,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp.4_10,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.05,mean,mm,4,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum sp.4_10,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.73,mean,mm,4,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.5,gbif:1353501,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,5.8,mean,mm,NA,0.15,std error,19,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.5,gbif:1353501,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,2.98,mean,mm,NA,0.08,std error,19,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.5,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.23,mean,mm,NA,0.03,std error,19,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.5,gbif:1353501,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,3.2,mean,mm,NA,0.08,std error,19,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Lasioglossum sp.5,gbif:1353501,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,2.97,mean,mm,NA,0.19,std error,19,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum sp.f1,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.873737341,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum sp.f2,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.051948013,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum sp1,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum sp2,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.42,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum sp3,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.36,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum sp4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum sp5,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.33,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum sp6,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum stictaspis,gbif:1354230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum stictaspis,gbif:1354230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lasioglossum stictaspis,gbif:1354230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum subhirtum,gbif:1353981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.32,mean,mm,295,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Lasioglossum subopacum,gbif:1353878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.89,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum subviridatum,gbif:1353760,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum tegulare,gbif:1355173,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,4.9,mean,mm,8,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum tegulare,gbif:1355173,body size,front wing length,NA,NA,NA,species,3.8,mean,mm,8,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum tegulare,gbif:1355173,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,8,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum tegulare,gbif:1355173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,0.9,mean,mm,8,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum tegulare,gbif:1355173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.9,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum titusi,gbif:1354871,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.83,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Lasioglossum titusi,gbif:1354871,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.47,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum transitorium,gbif:1354799,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.27,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum transitorium (Schenck, 1869)",gbif:1354799,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.2,mean,mm,5,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum tricinctum,gbif:1354676,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.25,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum trigeninum,gbif:9409945,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.2,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum trigeninum,gbif:9409945,body size,front wing length,NA,NA,NA,species,3.7,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum trigeninum,gbif:9409945,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum trigeninum,gbif:9409945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.1,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum trizonatum,gbif:1354582,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.050757335,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum truncaticolle (Morawitz, 1877)",gbif:1354555,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7,mean,mm,4,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum truncatum,gbif:1354546,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.2,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum truncatum,gbif:1354546,body size,front wing length,NA,NA,NA,species,6.7,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum truncatum,gbif:1354546,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum truncatum,gbif:1354546,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.8,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum vagans,gbif:1354240,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.28,mean,mm,NA,NA,NA,B16,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lasioglossum vagans,gbif:1354240,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.75,mean,mm,NA,NA,NA,B16,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum versans,gbif:1354140,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum versatum,gbif:1354129,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.7,mean,mm,20,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum versatum,gbif:1354129,body size,front wing length,NA,NA,NA,species,4.4,mean,mm,20,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum versatum,gbif:1354129,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,20,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum versatum,gbif:1354129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.4,mean,mm,20,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum versatum,gbif:1354129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.2,mean,mm,2,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Lasioglossum versatum,gbif:1354129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.35,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum villosulum,gbif:1354041,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.19,mean,mm,NA,0.04,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum villosulum,gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.33,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum villosulum,gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.33,mean,mm,168,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Lasioglossum villosulum,gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.39,mean,mm,NA,0.1,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum villosulum,gbif:1354041,body size,thorax length,NA,mean thorax length,NA,species,7,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum villosulum (Kirby 1802),gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,8,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum villosulum (Kirby 1802),gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.38,mean,mm,8,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum villosulum (Kirby 1802),gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,9,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum villosulum (KIRBY 1802),gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.16,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum villosulum (Kirby 1802),gbif:1354041,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.88,mean,mm,8,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum villosulum (KIRBY 1802),gbif:1354041,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.58,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lasioglossum villosulum (Kirby, 1802)",gbif:1354041,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,6.25,mean,mm,19,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Lasioglossum villosulum (Kirby, 1802)",gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.4,mean,mm,81,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum villosulum (Kirby, 1802)",gbif:1354041,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.18,mean,mm,11,NA,NA,NA,NA,2016,NA,NA,adult,"southern Spain (Montilla Moriles in Andalusia; 37°35′N, 4°38′W), North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E)",,,NA,NA,NA,Spain; France,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum viridatum,gbif:1354004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.11,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum viridatum,gbif:1354004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,1.74,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp1,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.310900823,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp10,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.629870069,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp2,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.292207744,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp3,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.310606011,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.145021602,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp5,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3506493,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp6,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.207792163,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp7,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.116883075,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp8,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.279220731,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Lasioglossum wg.sp9,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.415584363,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lasioglossum xanthopus,gbif:1353731,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,individual,12.81,single observation,mm,1,NA,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lasioglossum xanthopus,gbif:1353731,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,individual,75%,single observation,NA,1,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum xanthopus,gbif:1353731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.37,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum xanthopus,gbif:1353731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.37,mean,mm,5,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Lasioglossum xanthopus,gbif:1353731,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.4,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Lasioglossum xanthopus,gbif:1353731,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.5,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum xanthopus (Kirby 1802),gbif:1353731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.3,single observation,mm,1,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum xanthopus (Kirby 1802),gbif:1353731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.3,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum xanthopus (KIRBY 1802),gbif:1353731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.21,mean,mm,5,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum xanthopus (KIRBY 1802),gbif:1353731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.21,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Lasioglossum xanthopus (Kirby 1802),gbif:1353731,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,3.07,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum xanthopus (KIRBY 1802),gbif:1353731,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.94,mean,mm,5,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum xanthopus (Kirby, 1802)",gbif:1353731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.21,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum zephyrum,gbif:1353533,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.3,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum zephyrum,gbif:1353533,body size,front wing length,NA,NA,NA,species,4.3,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum zephyrum,gbif:1353533,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Lasioglossum zephyrum,gbif:1353533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.3,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Lasioglossum zephyrum,gbif:1353533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,1.08,mean,mm,4,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Lasioglossum zonulum,gbif:1355337,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,1.95,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lasioglossum zonulum,gbif:1355337,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.91,mean,mm,24,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Lasioglossum zonulum,gbif:1355337,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum zonulum (SMITH 1848),gbif:1355337,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.18,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Lasioglossum zonulum (SMITH 1848),gbif:1355337,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.18,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lasioglossum zonulum (SMITH 1848),gbif:1355337,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.9,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Lasioglossum zonulum (Smith, 1848)",gbif:1355337,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.87,mean,mm,6,NA,NA,NA,NA,2016,NA,NA,adult,"North-Western France (Coteaux-du-Layon in Loire Valley; 47°23′N, 0°42′E), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,France; Romania,NA,NA,NA
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_abanci,gbif:1353690,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_admirandum,gbif:1355231,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_apopkense,gbif:1355231,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.9,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_bruneri,gbif:1354713,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_callidum,gbif:1354434,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_cinctipes,gbif:1353752,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_cinctipes,gbif:1353752,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_coeruleum,gbif:1355282,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.288,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_coeruleum,gbif:1355282,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_coreopsis,gbif:1355024,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.9,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_cressonii,gbif:1354900,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_foxii,gbif:1354803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_fuscipenne,gbif:1354575,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_gotham,gbif:9503447,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_hitchensi,gbif:9242523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.26,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_hitchensi,gbif:9242523,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_illinoense,gbif:1355142,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.9,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_imitatum,gbif:9819061,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.8,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_laevissimum,gbif:1354253,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.617,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_lineatulum,gbif:1353669,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.509,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_lionotum,gbif:1353659,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.8,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_lustrans,gbif:1355277,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_oblongum,gbif:1355183,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_obscurum,gbif:1355124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_paradmirandum,gbif:1354450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.22,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_pectorale,gbif:1354189,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_pilosum,gbif:1353522,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_platyparium,gbif:1355322,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_quebecense,gbif:1354589,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.278,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_smilacinae,gbif:9529425,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_sp,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_sp2,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_sp3,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_sp4,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.8,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_spblue,gbif:1353501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_subviridatum,gbif:1353760,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_tegulare,gbif:1355173,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,0.9,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_trigeminum,gbif:9409945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_truncatum,gbif:1354546,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.6,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_versatum,gbif:1354129,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.212,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Lasioglossum_weemsi,gbif:1353864,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.245,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_weemsi,gbif:1353864,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Lasioglossum_zephyrum,gbif:1353533,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Lassiglossum spp,gbif:1353501,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.58,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lassioglossum calceatum,gbif:1354476,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,9.52,mean,mm,6,0.17,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lassioglossum calceatum,gbif:1354476,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,6,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lassioglossum fulvicorne,gbif:1354651,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,the distance from the front of the eyes to the tip of the abdomen,NA,species,6.97,mean,mm,6,0.2,std error,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Phillips, B. B., Williams, A., Osborne, J. L., & Shaw, R. F. (2018). Shared traits make flies and bees effective pollinators of oilseed rape (Brassica napus L.). Basic and Applied Ecology, 32, 66-76.",https://doi.org/10.1016/j.baae.2018.06.004,Lassioglossum fulvicorne,gbif:1354651,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,an approximate percentage (within 5%) of the upper side of the thorax that was covered with hair,NA,species,70%,mean,NA,6,NA,NA,NA,NA,April and June over three field seasons (2014–2016),NA,female,adult,Wiltshire,1.185988°N,−1.832657°W,NA,NA,NA,England,NA,NA,predominantly mixed farming with both arable and pasture fields
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Leiopodus singularis,gbif:1345415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Leiopodus singularis,gbif:1345415,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.21,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Lestrimelitta ciliata,gbif:1342664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,12,NA,NA,NA,121,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Lestrimelitta limao,gbif:1342678,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,34,NA,NA,NA,123,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Lestrimelitta monodonta,gbif:1342672,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean,mm,12,NA,NA,NA,124,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Lestrimelitta rufa,gbif:1342669,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,14,NA,NA,NA,125,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Lestrimelitta rufipes,gbif:1342673,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,32,NA,NA,NA,126,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Lestrimelitta spinosa,gbif:1342674,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,2,NA,NA,NA,127,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Leurotrigona pusilla,gbif:1342018,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8,mean,mm,17,NA,NA,NA,128,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Lipotriches (Austronomia),gbif:1352048,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.15,mean,mm,2,0.033,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Lipotriches (Lipotriches),gbif:1352165,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.18,mean,mm,2,0.032,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Lipotriches (Macronomia),gbif:4680542,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.22,single observation,mm,NA,NA,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lipotriches ceratina,gbif:1352387,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.62,mean,mm,NA,NA,NA,B17,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lipotriches ceratina,gbif:1352387,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.19,mean,mm,NA,NA,NA,B17,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lipotriches goniognatha,gbif:1352263,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.63,mean,mm,NA,NA,NA,B18,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lipotriches goniognatha,gbif:1352263,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.2,mean,mm,NA,NA,NA,B18,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lipotriches philippinensis,gbif:1352270,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.73,mean,mm,NA,NA,NA,B19,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Lipotriches philippinensis,gbif:1352270,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.34,mean,mm,NA,NA,NA,B19,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Lithurge planifrons,gbif:4298455,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.8,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lithurgopsis apicalis,gbif:11751764,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lithurgopsis apicalis,gbif:11751764,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.6,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Lithurgopsis apicalis,gbif:11751764,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.3,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lithurgus chrysurus,gbif:1336601,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.05,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lithurgus chrysurus Fonscolombe, 1834",gbif:1336601,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,11.8,mean,mm,3,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Lithurgus cornutus,gbif:1336592,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.09,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Lithurgus cornutus (Fabricius, 1787)",gbif:1336592,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,15.2,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Lithurgus huberi,gbif:8876296,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.06,mean,mm,12,NA,NA,NA,129,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lithurgus spiniferus CAMERON 1905,gbif:1336613,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.66,mean,mm,8,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Lithurgus spiniferus CAMERON 1905,gbif:1336613,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.78,mean,mm,8,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Lophopedia minor Aguiar, 2009",gbif:1344665,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.444,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Lophopedia minor Aguiar, 2009",gbif:1344665,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.031,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Lophopedia pygmaea,gbif:8454255,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,10,NA,NA,NA,130,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Lophopedia pygmaea (Schrottky, 1902)",gbif:1344676,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.722,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Lophopedia pygmaea (Schrottky, 1902)",gbif:1344676,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.229,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Loxoptilus sp. 1,gbif:1343025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.BREVIS,gbif:1336374,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.13,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2099,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.CAMPANULAE,gbif:1335960,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.26,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2093,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.CENTUNCULARIS,gbif:1335505,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2094,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.DESPONSA,gbif:5040668,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.05,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2077,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.DRURIELLA,gbif:5040653,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.26,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2079,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.FRIGIDA,gbif:1335739,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.46,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2089,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.GEMULA,gbif:1335066,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.38,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2097,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.ILLATA,gbif:5040702,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2080,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.INERMIS,gbif:1336295,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.51,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2088,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.LAPPONICA,gbif:1336343,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.11,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2101,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.LATIMANUS,gbif:1336315,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.34,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2096,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.MELANOPHEA,gbif:1336098,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.4,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2091,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.MENDICA,gbif:1335902,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.36,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2100,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.NUDA,gbif:1345897,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2210,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.PUGNATA,gbif:1336026,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2092,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.RELATIVA,gbif:1335251,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.51,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2095,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.ROTUNDATA,gbif:1335648,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.27,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2090,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.SUBILLATA,gbif:5040638,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.7,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2081,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.TEXANA,gbif:1335888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.56,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2098,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,M.TRINODIS,gbif:5040637,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2078,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Macrogalea Cockerell,gbif:1339653,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.19,mean,mm,2,0.015,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Macropis europaea,gbif:1345909,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.32,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Macropis europaea,gbif:1345909,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.28,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Macropis europaea,gbif:1345909,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,51,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Macropis europaea,gbif:1345909,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,51,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera latior,gbif:1355973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.31,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera latior,gbif:1355973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.27,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera latior,gbif:1355973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera latior,gbif:1355973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.25,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera latior,gbif:1355973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.23,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera latior,gbif:1355973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.28,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera latior,gbif:1355973,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.34,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera magniceps,gbif:1355974,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.289,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera magniceps,gbif:1355974,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.161,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera magniceps,gbif:1355974,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.18,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.13,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.12,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.15,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Macrotera portalis,gbif:1355981,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Macrotera tristella,gbif:1355997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.83,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Macrotera tristella,gbif:1355997,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.89,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Martinapis luteicornis,gbif:1342640,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.464,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Martinapis luteicornis,gbif:1342640,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.023,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Martinapis luteicornis,gbif:1342640,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.398,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Austromegachile) fascialis Vachal, 1909",gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,3.12,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Austromegachile) fascialis Vachal, 1909",gbif:1335011,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,5.574,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Austromegachile) susurrans Haliday, 1836  ",gbif:1336375,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,2.54,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Austromegachile) susurrans Haliday, 1836  ",gbif:1336375,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,4.576,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Austromegachile) trigonaspis Schrottky, 1913",gbif:1335345,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,3.13,NA,mm,2a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Austromegachile) trigonaspis Schrottky, 1913",gbif:1335345,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,5.592,NA,mm,2a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,megachile (Chalicodoma) Lepeletier,gbif:1334180,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.25,single observation,mm,NA,NA,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile (Chelostomoides) reflexa,gbif:1335347,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.27,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Chrysosarus) pseudanthidioides Moure, 1943  ",gbif:1336142,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,3.126,NA,mm,3a,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Chrysosarus) pseudanthidioides Moure, 1943  ",gbif:1336142,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,5.582,NA,mm,3a,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Moureapis) maculata Smith, 1853  ",gbif:1335124,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,3.055,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Moureapis) maculata Smith, 1853  ",gbif:1335124,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,4.261,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Pseudocentron) curvipes Smith, 1853  ",gbif:1335288,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,3.266,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Pseudocentron) curvipes Smith, 1853  ",gbif:1335288,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,4.825,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Pseudocentron) nudiventris Smith, 1853",gbif:1335461,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,3.24,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Pseudocentron) nudiventris Smith, 1853",gbif:1335461,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,4.76,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile (Pseudocentron) prietana,gbif:1335184,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Pseudocentron) subcingulata Moure, 1945  ",gbif:1335153,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,2.976,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Pseudocentron) subcingulata Moure, 1945  ",gbif:1335153,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,5.328,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Megachile (Ptilosarus) sp. ,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,2.14,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Megachile (Ptilosarus) sp. ,gbif:1335011,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,3.881,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile (Sayapis) zaptlana,gbif:1335256,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.69,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Trichurochile) cachoeirensis Schrottky, 1920  ",gbif:1335997,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,2.9,NA,mm,2a,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Megachile (Trichurochile) cachoeirensis Schrottky, 1920  ",gbif:1335997,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,5.196,NA,mm,2a,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile addenda,gbif:1335760,body size,undefined,NA,NA,NA,species,12.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile aff_dakotensis,gbif:1335178,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.88,mean,mm,NA,NA,NA,NA,NA,2012,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile alpicola,gbif:1336307,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.46,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile alpicola,gbif:1336307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.43,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile alpicola,gbif:1336307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,52,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile alpicola,gbif:1336307,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,52,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile analis,gbif:1336029,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.62,mean,mm,5,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile angelarum,gbif:1336000,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.17,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile apicalis,gbif:1335657,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.31,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Megachile apicalis Spinola, 1808",gbif:1335657,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.5,mean,mm,9,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Megachile apicalis Spinola, 1808",gbif:1335657,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.33,mean,mm,2,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile bicolor,gbif:1335500,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,17.08,mean,mm,NA,0.53,std error,10,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile bicolor,gbif:1335500,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,9.71,mean,mm,NA,0.51,std error,10,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile bicolor,gbif:1335500,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,4.47,mean,mm,NA,0.06,std error,10,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile bicolor,gbif:1335500,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,8.19,mean,mm,NA,0.12,std error,10,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile bicolor,gbif:1335500,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,5.35,mean,mm,NA,0.35,std error,10,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile brevis,gbif:1336374,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.565,mean,mm,NA,NA,NA,NA,NA,2003,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile brevis,gbif:1336374,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.091,mean,mm,NA,NA,NA,NA,NA,2018,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile brevis,gbif:1336374,body size,undefined,NA,NA,NA,species,9.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile campanulae,gbif:1335960,body size,undefined,NA,NA,NA,species,10.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile casadae,gbif:1335584,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.339,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile centuncularis,gbif:1335505,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.72,mean,mm,20,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile centuncularis,gbif:1335505,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,53,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Megachile centuncularis,gbif:1335505,body size,thorax length,NA,mean thorax length,NA,species,10,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile centuncularis,gbif:1335505,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,53,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile centuncularis,gbif:1335505,body size,undefined,NA,NA,NA,species,9.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Megachile centuncularis (Linnaeus 1758),gbif:1335505,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,2,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Megachile centuncularis (Linnaeus, 1758)",gbif:1335505,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,11,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Megachile centuncularis (Linnaeus, 1758)",gbif:1335505,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.77,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Megachile cf. rotundata (Fabricius, 1787)",gbif:1335648,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.5,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile cf. seducta,gbif:1335147,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.92,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile cf. seducta,gbif:1335147,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.24,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile circumcincta,gbif:1336564,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.68,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile circumcincta,gbif:1336564,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.82,mean,mm,8,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile circumcincta,gbif:1336564,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.35,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile circumcincta,gbif:1336564,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,54,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile circumcincta,gbif:1336564,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,54,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Megachile circumcincta (KIRBY 1802),gbif:1336564,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.79,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Megachile circumcincta (KIRBY 1802),gbif:1336564,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,5.01,single observation,mm,NA,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Megachile conjuncta,gbif:1336245,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.55,mean,mm,NA,NA,NA,B20,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Megachile conjuncta,gbif:1336245,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.31,mean,mm,NA,NA,NA,B20,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile coquilletti,gbif:1335840,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.36,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile coquilletti,gbif:1335840,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.01,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile coquilletti,gbif:1335840,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.39,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile dorsalis,gbif:1335750,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.63,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile ericetorum,gbif:1335321,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.39,mean,mm,15,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Megachile ericetorum,gbif:1335321,body size,thorax length,NA,mean thorax length,NA,species,15,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Megachile ericetorum Lepeletier 1841,gbif:1335321,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3,single observation,mm,1,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Megachile ericetorum Lepeletier 1841,gbif:1335321,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Megachile ericetorum Lepeletier 1841,gbif:1335321,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,5.37,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Megachile ericetorum Lepeletier, 1841",gbif:1335321,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,13.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile frigida,gbif:1335739,body size,undefined,NA,NA,NA,species,13,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Megachile frigida,gbif:1335739,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.479591792,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile frugalis,gbif:1335710,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.65,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile fucata,gbif:1335678,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.053,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile fucata,gbif:1335678,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Megachile gemula,gbif:1335066,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.826530576,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile gentilis,gbif:1336579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.63,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Megachile harthulura COCKERELL 1937,gbif:1335839,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.36,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Megachile harthulura COCKERELL 1937,gbif:1335839,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,4.26,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megachile iheringi,gbif:1335028,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.45,mean,mm,17,NA,NA,NA,131,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile inimica,gbif:1336150,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.221,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile inimica,gbif:1336150,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.561,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile inimica,gbif:1336150,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.3,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile lapponica,gbif:1336343,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4,mean,mm,NA,NA,NA,55,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile lapponica,gbif:1336343,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,55,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Megachile laticeps,gbif:1336269,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.31,mean,mm,NA,NA,NA,B23,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Megachile laticeps,gbif:1336269,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.9,mean,mm,NA,NA,NA,B23,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile ligniseca,gbif:1335802,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.51,mean,mm,NA,0.08,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile ligniseca,gbif:1335802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.48,mean,mm,NA,0.35,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Megachile ligniseca,gbif:1335802,body size,thorax length,NA,mean thorax length,NA,species,13,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile lippiae,gbif:1335692,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.457,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile lobatifrons,gbif:1335666,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.1,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Megachile melanophaea,gbif:1336098,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.069727851,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile melanopyga,gbif:7548157,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.03,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Megachile mendica,gbif:1335902,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,11.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Megachile mendica,gbif:1335902,body size,front wing length,NA,NA,NA,individual,7.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Megachile mendica,gbif:1335902,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,50-75,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Megachile mendica,gbif:1335902,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,3.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile mendica,gbif:1335902,body size,undefined,NA,NA,NA,species,10.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile montivaga,gbif:1335128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.68,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile montivaga,gbif:1335128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.47,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile montivaga,gbif:1335128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.954,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile montivaga,gbif:1335128,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.45,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile montivaga,gbif:1335128,body size,undefined,NA,NA,NA,species,12,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Megachile montivaga,gbif:1335128,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.653225764,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile mucida,gbif:1336567,body size,undefined,NA,NA,NA,species,14,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile nigriventris,gbif:1335829,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.56,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile nigriventris,gbif:1335829,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.55,mean,mm,5,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile nigriventris,gbif:1335829,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.95,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile nigriventris,gbif:1335829,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,56,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile nigriventris,gbif:1335829,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.08,mean,mm,NA,NA,NA,56,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile onobrychidis,gbif:9454958,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile onobrychidis,gbif:9454958,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.47,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile onobrychidis,gbif:9454958,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.45,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megachile orba,gbif:1335104,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.74,mean,mm,21,NA,NA,NA,132,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile parallela,gbif:1336077,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.27,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile parallela,gbif:1336077,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.47,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile parallela,gbif:1336077,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.713,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile parallela,gbif:1336077,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.17,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile parietina,gbif:1335942,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.87,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Megachile perihirta,gbif:1335630,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.134825501,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile pilidens,gbif:1335229,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.67,mean,mm,11,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Megachile pilidens Alfken, 1924",gbif:1335229,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.1,mean,mm,17,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile policaris,gbif:1336534,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.34,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile policaris,gbif:1336534,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile policaris,gbif:1336534,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.428,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile prosopidis,gbif:1336241,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.27,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile prosopidis,gbif:1336241,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.964,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile pugnata,gbif:1336026,body size,undefined,NA,NA,NA,species,15,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Megachile pusilla Pérez, 1884",gbif:1335824,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8,mean,mm,7,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile pyrenaea,gbif:1335792,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.63,mean,mm,12,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile relativa,gbif:1335251,body size,undefined,NA,NA,NA,species,10.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Megachile relativa,gbif:1335251,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.65306119,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Megachile rotundata,gbif:1335648,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile rotundata,gbif:1335648,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,15,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile rotundata,gbif:1335648,body size,undefined,NA,NA,NA,species,8,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megachile rubricata,gbif:1336231,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.28,mean,mm,10,NA,NA,NA,133,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile sabinensis,gbif:1335527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.639,mean,mm,NA,NA,NA,NA,NA,2006,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile sabinensis,gbif:1335527,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.747,mean,mm,NA,NA,NA,NA,NA,2011,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile sculpturalis,gbif:1335213,body size,undefined,NA,NA,NA,species,22,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile sidalceae,gbif:1336076,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.221,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile sidalceae,gbif:1336076,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.043,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile sidalceae,gbif:1336076,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.354,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Megachile sp,gbif:1335011,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.5,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Megachile sp,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,4,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Megachile sp,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,2.92,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile sp.,gbif:1335011,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,9.2,mean,mm,NA,NA,std error,11,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile sp.,gbif:1335011,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,6.07,mean,mm,NA,NA,std error,11,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile sp.,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,2.46,mean,mm,NA,NA,std error,11,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Megachile sp.,gbif:1335011,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,5.05,mean,mm,NA,NA,std error,11,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Megachile sp. 1,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.61,mean,mm,NA,NA,NA,B21,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile sp. 1,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Megachile sp. 1,gbif:1335011,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.7,mean,mm,NA,NA,NA,B21,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Megachile sp. 2,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.19,mean,mm,NA,NA,NA,B22,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile sp. 2,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Megachile sp. 2,gbif:1335011,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.97,mean,mm,NA,NA,NA,B22,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile sp. 3,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile sp. 4,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.84,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile sp. 5,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.04,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Megachile sp. 6,gbif:1335011,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.63,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile spinotulata,gbif:1335629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.328,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile spinotulata,gbif:1335629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.225,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile subnigra,gbif:1335047,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Megachile subnigra,gbif:1335047,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.53,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Megachile texana,gbif:1335888,body size,undefined,NA,NA,NA,species,12,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile townsendiana,gbif:1335601,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.023,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile townsendiana,gbif:1335601,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.028,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile umatillensis,gbif:1336551,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.64,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile versicolor,gbif:1336116,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.14,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile versicolor,gbif:1336116,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4,mean,mm,NA,NA,NA,57,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile versicolor,gbif:1336116,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,57,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Megachile versicolor Smith 1844,gbif:1336116,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Megachile versicolor Smith 1844,gbif:1336116,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Megachile versicolor Smith 1844,gbif:1336116,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.54,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Megachile versicolor Smith, 1844",gbif:1336116,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.95,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile willughbiella,gbif:1335556,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.51,mean,mm,NA,0.11,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Megachile willughbiella,gbif:1335556,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.59,mean,mm,28,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Megachile willughbiella,gbif:1335556,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.41,mean,mm,NA,0.27,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile willughbiella,gbif:1335556,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,58,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Megachile willughbiella,gbif:1335556,body size,thorax length,NA,mean thorax length,NA,species,13.5,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Megachile willughbiella,gbif:1335556,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,7.08,mean,mm,NA,NA,NA,58,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Megachile willughbiella (Kirby, 1802)",gbif:1335556,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.06,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile xerophila,gbif:1335399,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Megachile xerophila,gbif:1335399,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.505,mean,mm,NA,NA,NA,NA,NA,2009,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_brevis,gbif:1336374,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.6,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_campanulae,gbif:1335960,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_concinna,gbif:1335225,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_exilis,gbif:1335017,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_gemula,gbif:1335066,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_mendica,gbif:1335902,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_petulans,gbif:1335469,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_rotundata,gbif:1335648,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_texana,gbif:1335888,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Megachile_xylocopoides,gbif:1335381,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.9,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megalopta aegis,gbif:1352144,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.8,mean,mm,13,NA,NA,NA,134,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megalopta amoena,gbif:1352146,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean,mm,17,NA,NA,NA,135,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megalopta mura,gbif:8830239,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,28,NA,NA,NA,136,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megalopta sodalis,gbif:1352162,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,17,NA,NA,NA,138,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megalopta yanomami,gbif:8743564,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean,mm,8,NA,NA,NA,139,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Megaloptidia nocturna,gbif:1350896,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.8,mean,mm,5,NA,NA,NA,137,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Melecta albifrons,gbif:1345296,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.23,mean,mm,7,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Melecta albifrons (Forster, 1771)",gbif:1345296,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,3.06,mean,mm,2,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta alexanderi,gbif:1345322,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta alexanderi,gbif:1345322,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta bohartorum,gbif:1345311,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.101,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta bohartorum,gbif:1345311,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.069,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta bohartorum,gbif:1345311,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.67,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Melecta edwardsii,gbif:1345301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.56,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Melecta luctuosa,gbif:1345319,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.25,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.19,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.4,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.29,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.98,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.83,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.33,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.76,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.42,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.63,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.84,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.53,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.36,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.38,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.79,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.89,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.35,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.48,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.41,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.49,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.25,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.26,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.51,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melecta pacifica,gbif:1345357,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.2,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Melipona amazonica,gbif:1340073,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,35,NA,NA,NA,140,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melipona bicolor Lepeletier, 1836",gbif:1340067,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.506,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melipona bicolor Lepeletier, 1836",gbif:1340067,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.241,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Melipona fasciculata,gbif:1340098,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,89,NA,NA,NA,141,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Melipona flavolineata,gbif:1340078,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean,mm,71,NA,NA,NA,142,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Melipona flavolineata Friese, 1900",gbif:1340078,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean ,mm,5,NA,NA,NA,sp07,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Melipona fuliginosa,gbif:1340050,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.9,mean,mm,40,NA,NA,NA,143,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Melipona interrupta,gbif:1340106,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3,mean,mm,17,NA,NA,NA,144,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melipona marginata Lepeletier, 1836",gbif:1340047,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.81,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melipona marginata Lepeletier, 1836",gbif:1340047,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.04,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Melipona melanoventer,gbif:1340099,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3,mean,mm,93,NA,NA,NA,145,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melipona mondury Smith, 1863",gbif:1340059,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.543,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melipona mondury Smith, 1863",gbif:1340059,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.218,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Melipona puncticollis,gbif:1340086,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,30,NA,NA,NA,146,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melipona quadrifasciata Lepeletier, 1836",gbif:1340076,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.586,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melipona quadrifasciata Lepeletier, 1836",gbif:1340076,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.304,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Melipona seminigrapernigra,gbif:1340042,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3,mean,mm,98,NA,NA,NA,147,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Meliponula (Axestotrigona) Mourse,gbif:1339375,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.09,mean,mm,22,0.003,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,woodlands
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes aff. montanus,gbif:5040709,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.87,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes aff. montanus,gbif:5040709,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.85,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes agilis,gbif:5040606,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes agilis,gbif:5040606,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes agilis,gbif:5040606,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.76,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Melissodes agilis,gbif:5040606,body size,undefined,NA,NA,NA,species,12.75,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Melissodes bimaculata,gbif:5040660,body size,undefined,NA,NA,NA,species,13,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes bimatris,gbif:5040646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.365,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes coloradensis,gbif:5040680,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes coloradensis,gbif:5040680,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.888,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes coloradensis,gbif:5040680,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.003,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes communis,gbif:5040655,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.81,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes communis,gbif:5040655,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.11,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes communis,gbif:5040655,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.208,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes communis,gbif:5040655,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.241,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes communis,gbif:5040655,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.75,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes confusus,gbif:5040624,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.781,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes coreopsis,gbif:5040614,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.616,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes coreopsis,gbif:5040614,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.575,mean,mm,NA,NA,NA,NA,NA,2013,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes coreopsis,gbif:5040614,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Melissodes denticulata,gbif:5040690,body size,undefined,NA,NA,NA,species,10.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Melissodes desponsa,gbif:5040668,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,2.59,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Melissodes desponsa,gbif:5040668,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,2.88,mean,mm,5,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Melissodes druriella,gbif:5040653,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,species,2.53,mean,mm,2,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes fasciatella,gbif:5040599,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.106,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes gilensis,gbif:5040650,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.175,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.64,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.71,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.36,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.72,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.72,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.12,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.44,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes limbus,gbif:5040607,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Melissodes lupina,gbif:5040644,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes lupinus,gbif:5040644,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes lupinus,gbif:5040644,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.78,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes menuachus,gbif:5040663,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.147,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes menuachus,gbif:5040663,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.06,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Melissodes microsticta,gbif:5040604,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.461538448,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes montanus,gbif:5040709,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.811,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes pallidisignatus,gbif:5040743,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.629,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes pallidisignatus,gbif:5040743,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes paroselae,gbif:5040720,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.24,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes paroselae,gbif:5040720,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.35,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes paroselae,gbif:5040720,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.21,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes paroselae,gbif:5040720,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.23,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes paroselae,gbif:5040720,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes paroselae,gbif:5040720,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.47,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes paroselae,gbif:5040720,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.2,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes paroselae,gbif:5040720,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.61,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes perpolitus,gbif:5040654,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.55,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes perpolitus,gbif:5040654,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.249,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes perpolitus,gbif:5040654,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.79,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes personatellus,gbif:5040623,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes personatellus,gbif:5040623,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.29,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes plumosus,gbif:5040692,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.29,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes plumosus,gbif:5040692,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.73,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Melissodes robustior,gbif:5040640,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.88,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes semilupinus,gbif:5040741,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.365,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes semilupinus,gbif:5040741,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.562,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes semilupinus,gbif:5040741,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.554,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes snowii,gbif:5040717,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.723,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes snowii,gbif:5040717,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes snowii,gbif:5040717,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.22,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Melissodes sp,gbif:5040596,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,2.67,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Melissodes sp,gbif:5040596,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,2.61,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Melissodes sp. 1,gbif:5040596,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.41,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Melissodes sp. 2,gbif:5040596,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes sp. nov. 1,gbif:5040596,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.28,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes sp. nov. 1,gbif:5040596,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.7,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Melissodes sp.f3,gbif:5040596,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.193548352,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Melissodes stearnsi,gbif:5040675,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.04,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes stearnsi,gbif:5040675,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes stearnsi,gbif:5040675,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.44,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes subagilis,gbif:5040649,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes subagilis,gbif:5040649,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.27,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes subagilis,gbif:5040649,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Melissodes subillata,gbif:5040638,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,2.14,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Melissodes subillatus,gbif:5040638,body size,undefined,NA,NA,NA,species,10.75,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes submenuacha,gbif:5040630,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.373,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes submenuacha,gbif:5040630,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.285,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Melissodes tepida,gbif:5040608,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.21,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes tessellatus,gbif:5040715,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes tessellatus,gbif:5040715,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.29,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes thelypodii,gbif:5040699,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.456,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes thelypodii,gbif:5040699,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes thelypodii,gbif:5040699,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.4,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Melissodes trinodis,gbif:5040637,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,2.86,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Melissodes trinodis,gbif:5040637,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,NA,2.52,NA,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,female,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.35,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.36,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.57,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.42,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.44,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.21,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.22,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.5,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.53,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.67,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.56,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.42,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.45,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.53,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.64,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.53,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.52,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.29,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.27,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.32,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.44,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.98,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.69,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.82,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.95,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.8,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.97,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.99,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.94,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.74,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.27,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.36,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.39,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.49,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.39,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.1,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.32,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.39,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.28,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.49,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.47,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.55,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.51,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.36,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.51,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.25,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.24,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.39,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.35,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.62,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.6,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.49,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.66,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.51,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.65,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.57,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.29,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.59,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.68,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.71,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.53,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.62,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.47,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.51,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.5,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.66,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.27,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.52,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.12,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.45,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.22,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.61,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.35,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.45,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.31,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.44,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.97,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.49,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.44,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.42,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.28,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.04,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.44,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.26,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.941,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.516,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.822,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.727,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.912,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.782,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.85,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes tristis,gbif:5040629,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.275,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes velutinus,gbif:5040737,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Melissodes velutinus,gbif:5040737,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes verbesinarum,gbif:5040724,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.491,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes verbesinarum,gbif:5040724,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.219,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Melissodes verbesinarum,gbif:5040724,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.53,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Melissodes_bimaculata,gbif:5040660,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Melissodes_comptoides,gbif:5040635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Melissoptila (Ptilomelissa) otomita,gbif:1344962,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.13,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melissoptila setigera Urban, 1998",gbif:1344985,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,1.412,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Melissoptila setigera Urban, 1998",gbif:1344985,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,2.968,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Melissoptila sp. 1,gbif:1344930,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.93,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Melitoma_taurea,gbif:1341823,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Melitta arrogans (SMITH 1916),gbif:5040877,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,3.47,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Melitta arrogans (SMITH 1916),gbif:5040877,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,3.63,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Melitta haemorrhoidalis,gbif:9796233,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.43,mean,mm,NA,0.27,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Melitta haemorrhoidalis,gbif:9796233,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.63,mean,mm,NA,0.09,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Melitta haemorrhoidalis,gbif:9796233,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,59,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Melitta haemorrhoidalis,gbif:9796233,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,NA,NA,NA,59,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Melitta haemorrhoidalis (Fabricius, 1775)",gbif:9796233,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.58,mean,mm,9,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Melitta leporina,gbif:5040875,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.39,mean,mm,27,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Melitta leporina,gbif:5040875,body size,thorax length,NA,mean thorax length,NA,species,10,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Melitta leporina (PANZER 1799),gbif:5040875,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.95,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Melitta leporina (PANZER 1799),gbif:5040875,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.95,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Melitta leporina (PANZER 1799),gbif:5040875,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.09,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Melitta leporina (Panzer, 1799)",gbif:5040875,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,2.78,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Melitta leporina (Panzer, 1799)",gbif:5040875,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.2,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",NA,NA,NA,NA,NA,Austria,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Melitta nigricans Alfken 1905,gbif:5040881,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Melitta nigricans Alfken 1905,gbif:5040881,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Melitta nigricans Alfken 1905,gbif:5040881,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.7,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Melitta tricincta,gbif:5040893,body size,thorax length,NA,mean thorax length,NA,species,13,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Micralictoides altadenae,gbif:1355418,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.96,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Micralictoides ruficaudus,gbif:1355419,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.69,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Micralictoides ruficaudus,gbif:1355419,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.19,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,N.BETHUNEI,gbif:1343660,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.8,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2191,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,N.CRESSONII,gbif:1343369,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2192,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,N.DENTICULATA,gbif:1343630,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2196,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,N.LUTHEOLOIDES,gbif:1343468,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2197,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,N.MACULATA,gbif:1343427,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.05,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2195,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,N.PARVA,gbif:1343286,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.02,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2194,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,N.PYGMAEA,gbif:1343790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2193,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,N.VICINA,gbif:1343914,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2198,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Nannotrigona dutrae (Friese, 1901)",gbif:1344756,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean ,mm,2,NA,NA,NA,sp08,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Nannotrigona minuta,gbif:1344753,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,5,NA,NA,NA,148,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Nannotrigona punctata,gbif:1344752,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.27,mean,mm,37,NA,NA,NA,149,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Nannotrigona punctata (Smith, 1854)",gbif:1344752,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean ,mm,5,NA,NA,NA,sp09,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Nannotrigona schultzei,gbif:1344757,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.26,mean,mm,10,NA,NA,NA,150,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Nannotrigona schultzei (Friese, 1901)",gbif:1344757,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean ,mm,5,NA,NA,NA,sp10,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Neocorynura cuprifrons,gbif:1351793,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,4,NA,NA,NA,151,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Neocorynura melamptera Moure, 1943",gbif:1351798,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,2.4,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Neocorynura melamptera Moure, 1943",gbif:1351798,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,3.198,NA,mm,1,NA,NA,NA,NA,,,M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Neocorynura oiospermi (Schrottky, 1909)  ",gbif:1351806,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,1.536,NA,mm,3a,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Neocorynura oiospermi (Schrottky, 1909)  ",gbif:1351806,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,3.44,NA,mm,3a,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Neolarra sp. 1,gbif:1340842,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.36,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Neolarra vigilans,gbif:1340858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.49,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Neolarra vigilans,gbif:1340858,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.54,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Neopasites sp. 1,gbif:1339682,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Neopasites sp. 1,gbif:1339682,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.24,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Neopasites sp. 2,gbif:1339682,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.69,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Neopasites sp. 2,gbif:1339682,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.49,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Niltonia virgili Moure, 1964  ",gbif:1350395,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.286,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Niltonia virgili Moure, 1964  ",gbif:1350395,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.902,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada affabilis,gbif:1343721,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,11.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada affabilis,gbif:1343721,body size,front wing length,NA,NA,NA,individual,8.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada affabilis,gbif:1343721,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada affabilis,gbif:1343721,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Nomada agrestis Fabricus, 1787",gbif:1343822,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.74,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada alboguttata,gbif:1343792,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.7,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada articulata,gbif:1343377,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.6,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada articulata,gbif:1343377,body size,front wing length,NA,NA,NA,species,6.1,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada articulata,gbif:1343377,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada articulata,gbif:1343377,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.6,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Nomada articulata,gbif:1343377,body size,undefined,NA,NA,NA,species,8.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada atroscutellaris,gbif:1343400,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Nomada basalis Herrich-Schaffer, 1839",gbif:1343956,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.86,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bethunei,gbif:1343660,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.5,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bethunei,gbif:1343660,body size,front wing length,NA,NA,NA,individual,7.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bethunei,gbif:1343660,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bethunei,gbif:1343660,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 1,gbif:1343230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,6.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 1,gbif:1343230,body size,front wing length,NA,NA,NA,individual,4.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 1,gbif:1343230,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 1,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 2,gbif:1343230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7.6,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 2,gbif:1343230,body size,front wing length,NA,NA,NA,species,6,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 2,gbif:1343230,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 2,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.9,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 3,gbif:1343230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,7.8,mean,mm,64,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 3,gbif:1343230,body size,front wing length,NA,NA,NA,species,5.4,mean,mm,64,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 3,gbif:1343230,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,64,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada bidentate 3,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.6,mean,mm,64,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Nomada bidente group,gbif:1343230,body size,undefined,NA,NA,NA,species,7.3,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada bifasciata,gbif:1343892,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.96,mean,mm,6,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Nomada bifasciata OLIVIER 1811,gbif:1343892,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.92,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada bifasciata Olivier, 1811",gbif:1343892,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.78,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada composita,gbif:1343237,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada composita,gbif:1343237,body size,front wing length,NA,NA,NA,individual,5.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada composita,gbif:1343237,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada composita,gbif:1343237,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Nomada denticulata,gbif:1343630,body size,undefined,NA,NA,NA,species,7.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada depressa,gbif:1343646,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.4,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada depressa,gbif:1343646,body size,front wing length,NA,NA,NA,species,4.4,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada depressa,gbif:1343646,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada depressa,gbif:1343646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.3,mean,mm,3,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Nomada discrepans Schmiedeknecht, 1882",gbif:1343766,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.08,mean,mm,4,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada distinguenda,gbif:1343736,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.05,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada fabriciana,gbif:1343441,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.58,mean,mm,18,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada fabriciana (Linné, 1767)",gbif:1343441,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.44,mean,mm,7,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada ferruginata,gbif:1343309,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.11,mean,mm,9,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Nomada flava,gbif:1343896,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.08,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada flava,gbif:1343896,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.99,mean,mm,10,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Nomada flava,gbif:1343896,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.05,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada flava Panzer, 1798",gbif:1343896,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.79,mean,mm,19,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada flavogutta,gbif:1344004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.16,mean,mm,72,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Nomada flavoguttata,gbif:1344004,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.09,mean,mm,NA,0.01,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Nomada flavoguttata,gbif:1344004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.19,mean,mm,NA,0.18,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Nomada flavoguttata (KIRBY 1802),gbif:1344004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.07,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada flavoguttata (Kirby, 1802)",gbif:1344004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.36,mean,mm,61,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Nomada flavoguttata (Kirby, 1802)",gbif:1344004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.07,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada flavopicta,gbif:1343989,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.57,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada fucata,gbif:1343957,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.88,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada fucata Panzer, 1798",gbif:1343957,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.78,mean,mm,12,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Nomada goodeniana,gbif:1343694,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.21,mean,mm,NA,0.05,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada goodeniana,gbif:1343694,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.24,mean,mm,6,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Nomada goodeniana,gbif:1343694,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.85,mean,mm,NA,0.38,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada goodeniana (Kirby, 1802)",gbif:1343694,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.03,mean,mm,8,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada guttulata,gbif:1343512,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.21,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada guttulata Schenck, 1861",gbif:1343512,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,1.22,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada illinoensis,gbif:1343945,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,7.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada illinoensis,gbif:1343945,body size,front wing length,NA,NA,NA,individual,5.4,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada illinoensis,gbif:1343945,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada illinoensis,gbif:1343945,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada imbricate,gbif:1343931,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.9,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada imbricate,gbif:1343931,body size,front wing length,NA,NA,NA,species,7.5,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada imbricate,gbif:1343931,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada imbricate,gbif:1343931,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada lathburiana,gbif:1343389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,30,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada lathburiana (Kirby, 1802)",gbif:1343389,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.94,mean,mm,2,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Nomada maculata,gbif:1343427,body size,undefined,NA,NA,NA,species,9.75,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Nomada marshamella,gbif:1343878,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.22,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Nomada marshamella,gbif:1343878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.07,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada marshamella (Kirby, 1802)",gbif:1343878,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.31,mean,mm,27,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada obliterate,gbif:1343753,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada obliterate,gbif:1343753,body size,front wing length,NA,NA,NA,individual,7.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada obliterate,gbif:1343753,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada obliterate,gbif:1343753,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada panzeri,gbif:1343704,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.64,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada panzeri Lepeletier, 1841",gbif:1343704,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,1.48,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada parva,gbif:1343286,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,5.8,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada parva,gbif:1343286,body size,front wing length,NA,NA,NA,species,4,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada parva,gbif:1343286,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Nomada parva,gbif:1343286,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,1.1,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Nomada pygmaea,gbif:1343790,body size,undefined,NA,NA,NA,species,7.25,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada ruficornis,gbif:1343608,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.81,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada ruficornis (Linnaeus, 1758)",gbif:1343608,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.72,mean,mm,27,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada sexfasciata Panzer, 1799",gbif:1343381,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.14,mean,mm,4,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada sheppardana (Kirby, 1802)",gbif:1343367,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,0.91,mean,mm,27,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Nomada sp,gbif:1343230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,9.01,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Nomada sp. 1,gbif:1343230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,7.5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Nomada sp. 1,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Nomada sp. 1,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.86,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Nomada sp. 1,gbif:1343230,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.84,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Nomada sp. 2,gbif:1343230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,6,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Nomada sp. 2,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.37,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Nomada sp. 2,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Nomada sp. 2,gbif:1343230,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.44,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Nomada sp. 3,gbif:1343230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,5.8,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Nomada sp. 3,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Nomada sp. 3,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Nomada sp. 3,gbif:1343230,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.24,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,Nomada sp. 4,gbif:1343230,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,5,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Nomada sp. 4,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.67,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Nomada sp. 5,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.97,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Nomada sp. 7,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Nomada sp.f1.sky,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.560606002,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Nomada sp.f11.sky,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.493506438,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Nomada sp.f12.sky,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.467532413,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Nomada sp.f13,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.701298638,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Nomada sp.f3.sky,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.584415525,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Nomada sp.f4.sky,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.012986938,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Nomada sp.f6,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.40259735,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Nomada sp.f9.sky,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.467532413,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada succincta,gbif:1343826,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Nomada succincta Panzer, 1798",gbif:1343826,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.94,mean,mm,46,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada tridentirostris,gbif:1343602,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.15,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomada zonata,gbif:1343298,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.67,mean,mm,11,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Nomada zonata PANZER 1798,gbif:1343298,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.6,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Nomada_cressonii,gbif:1343369,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.45,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Nomada_imbricata,gbif:1343931,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Nomada_parva,gbif:1343286,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Nomada_pygmaea,gbif:1343790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Nomada_sp,gbif:1343230,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Nomia iridescens,gbif:5042232,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.33,mean,mm,NA,NA,NA,B25,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Nomia iridescens,gbif:5042232,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.11,mean,mm,NA,NA,NA,B25,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Nomia quadrifasciata,gbif:5042201,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.05,mean,mm,NA,NA,NA,B26,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Nomia quadrifasciata,gbif:5042201,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.74,mean,mm,NA,NA,NA,B26,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Nomia tetrazonata,gbif:5042291,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.343,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Nomia tetrazonata,gbif:5042291,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.496,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Nomia triangulifera,gbif:1351603,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.737,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Nomioides facilis (Smith, 1853)",gbif:1352051,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,3.7,mean,mm,9,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Nomioides minutissimus,gbif:1352096,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8,mean,mm,8,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.ALBIVENTRIS,gbif:5039134,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.23,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2113,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.ATRIVENTRIS,gbif:5039351,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.69,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2114,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.BUCEPHALA,gbif:5039079,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.55,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2122,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.CAERULESCENS,gbif:5039096,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.43,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2115,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.CONJUNCTA,gbif:5039439,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2120,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.LIGNARIA,gbif:5039420,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.1,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2117,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.PUMILA,gbif:5039117,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.36,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2118,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.SIMILLIMA,gbif:5039267,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.39,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2121,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.TAURUS,gbif:5039112,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.47,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2119,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,O.TERSULA,gbif:5039076,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.73,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2116,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmi leaiana,gbif:5039039,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,63,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia ?phaceliae,gbif:5039121,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.080837142,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia ?proxima,gbif:5039159,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.090909013,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia 2,gbif:1337664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.362,mean,mm,NA,NA,NA,NA,NA,2002,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia 2,gbif:1337664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.239,mean,mm,NA,NA,NA,NA,NA,2008,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia 2,gbif:1337664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.323,mean,mm,NA,NA,NA,NA,NA,2008,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Osmia adunca (Panzer 1798),gbif:6096941,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.8,mean,mm,3,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Osmia adunca (Panzer, 1798)",gbif:6096941,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.4,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia aff_enixa,gbif:5039139,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.624,mean,mm,NA,NA,NA,NA,NA,2002,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia aff_enixa,gbif:5039139,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.402,mean,mm,NA,NA,NA,NA,NA,2014,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia aff.paradisica,gbif:5039332,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.225864047,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia aglaia,gbif:5039356,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia albolateralis,gbif:5039232,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.321856449,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Osmia andrenoides Spinola, 1808",gbif:5039442,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.2,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia atriventris,gbif:5039351,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,7.9,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia atriventris,gbif:5039351,body size,front wing length,NA,NA,NA,individual,5.9,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia atriventris,gbif:5039351,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia atriventris,gbif:5039351,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.1,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Osmia atriventris,gbif:5039351,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,2.23,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Osmia atriventris,gbif:5039351,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.92,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia atrocyanea,gbif:5039366,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.82,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia atrocyanea,gbif:5039366,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.755102005,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia aurulenta,gbif:5039340,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.88,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia aurulenta (PANZER 1799),gbif:5039340,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.89,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Osmia aurulenta (PANZER 1799),gbif:5039340,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.89,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia aurulenta (PANZER 1799),gbif:5039340,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.18,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Osmia aurulenta (Panzer, 1799)",gbif:5039340,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.68,mean,mm,17,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Osmia aurulenta (Panzer, 1799)",gbif:5039340,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,4,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland), Central Romania (Târnave in Transylvania; 46°13′N, 24°06′E)",,,NA,NA,NA,Austria; Romania,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia bicolor,gbif:5039228,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia bicolor (Schrank 1781),gbif:5039228,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.8,single observation,mm,1,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia bicolor (Schrank 1781),gbif:5039228,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.8,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Osmia bicolor (Schrank 1781),gbif:5039228,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.8,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia bicolor (Schrank 1781),gbif:5039228,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,5.02,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Osmia bicolor (Schrank, 1781)",gbif:5039228,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.52,mean,mm,205,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Osmia bicornis,gbif:5039315,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia bicornis,gbif:5039315,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.51,mean,mm,97,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia bicornis,gbif:5039315,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,60,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Osmia bicornis,gbif:5039315,body size,thorax length,NA,mean thorax length,NA,species,12,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia bicornis,gbif:5039315,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,60,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia bicornis (Linnaeus 1758),gbif:5039315,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia bicornis (Linnaeus 1758),gbif:5039315,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Osmia bicornis (Linnaeus 1758),gbif:5039315,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,3.2,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia bicornis (Linnaeus 1758),gbif:5039315,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.71,mean,mm,3,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia brevicornis,gbif:5039166,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,27,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia brevis,gbif:5039021,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.349555391,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia bridwelli,gbif:5039222,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.22,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia bruneri,gbif:5039062,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.872580615,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia bucephala,gbif:5039079,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,13.7,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia bucephala,gbif:5039079,body size,front wing length,NA,NA,NA,species,9.8,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia bucephala,gbif:5039079,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,75-100,mean,percentage,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia bucephala,gbif:5039079,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,3.8,mean,mm,5,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Osmia bucephala,gbif:5039079,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,4,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Osmia bucephala,gbif:5039079,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.54,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia bucephala,gbif:5039079,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.318995253,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia caerulescens,gbif:5039096,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,61,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia caerulescens,gbif:5039096,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.64,mean,mm,NA,NA,NA,61,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Osmia caerulescens,gbif:5039096,body size,undefined,NA,NA,NA,species,10,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia caerulescens (LINNAEUS 1758),gbif:5039096,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.17,mean,mm,5,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Osmia caerulescens (LINNAEUS 1758),gbif:5039096,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.17,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia caerulescens (LINNAEUS 1758),gbif:5039096,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.94,mean,mm,5,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Osmia caerulescens (Linnaeus, 1758)",gbif:5039096,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.75,mean,mm,12,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Osmia caerulescens (Linnaeus, 1758)",gbif:5039096,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.22,mean,mm,4,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia californica,gbif:5039171,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia californica,gbif:5039171,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.53,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia cara,gbif:5039221,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.07,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Osmia cerinthidis,gbif:5039035,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.2,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Osmia cerinthidis,gbif:5039035,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Osmia cf. notata (Fabricius, 1804)",gbif:5039287,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,10,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia clarescens,gbif:5039320,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia clarescens,gbif:5039320,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.6,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Osmia claviventris THOMSON 1872,gbif:5760842,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.01,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia claviventris THOMSON 1873,gbif:5760842,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.01,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia claviventris THOMSON 1873,gbif:5760842,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.65,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia collinsiae,gbif:5039415,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.9,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia collinsiae,gbif:5039415,body size,front wing length,NA,NA,NA,individual,6.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia collinsiae,gbif:5039415,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,25-50,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia collinsiae,gbif:5039415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,2.7,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia coloradensis,gbif:5039418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.31,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia coloradensis,gbif:5039418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.71,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia coloradensis,gbif:5039418,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.87,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia coloradensis,gbif:5039418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.312563352,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia cornifrons,gbif:5039354,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,11.3,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia cornifrons,gbif:5039354,body size,front wing length,NA,NA,NA,individual,7.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia cornifrons,gbif:5039354,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,50-75,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia cornifrons,gbif:5039354,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,3.2,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Osmia cornifrons,gbif:5039354,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.86,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Osmia cornuta,gbif:5039293,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,3.36,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia cyanella,gbif:5039055,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.45,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Osmia excavata,gbif:5039330,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.73,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia ferruginea,gbif:1337916,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.12,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia gabrielis,gbif:5039313,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.97,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia gabrielis,gbif:5039313,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.31,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia gaudiosa,gbif:5039363,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.826,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia georgica,gbif:5039449,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.2,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia georgica,gbif:5039449,body size,front wing length,NA,NA,NA,species,6.1,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia georgica,gbif:5039449,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,0-25,mean,percentage,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia georgica,gbif:5039449,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2.3,mean,mm,4,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Osmia georgica,gbif:5039449,body size,undefined,NA,NA,NA,species,8.25,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia glauca,gbif:5039425,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia granulosa,gbif:5039113,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.06,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia granulosa,gbif:5039113,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.06,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia granulosa,gbif:5039113,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.75,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Osmia inermis,gbif:5039209,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.64,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia inermis,gbif:5039209,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.12,mean,mm,10,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Osmia inermis,gbif:5039209,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.27,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia inermis,gbif:5039209,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,62,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia inermis,gbif:5039209,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,62,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia integra,gbif:5039181,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.989,mean,mm,NA,NA,NA,NA,NA,2009,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia juxta,gbif:5039235 ,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.74278544,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia laeta,gbif:5039355,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.95,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Osmia latreillei (Spinola, 1806)",gbif:5039087,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,11.2,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia leaiana,gbif:5039039,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.67,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia leaiana,gbif:5039039,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3,mean,mm,NA,NA,NA,63,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Osmia leaiana,gbif:5039039,body size,thorax length,NA,mean thorax length,NA,species,10,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Osmia leaiana (Kirby, 1802)",gbif:5039039,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.66,mean,mm,3,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Osmia leucomelana,gbif:6096935,body size,thorax length,NA,mean thorax length,NA,species,9,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia leucomelana (KIRBY 1802),gbif:6096935,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.41,mean,mm,5,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Osmia leucomelana (KIRBY 1802),gbif:6096935,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.41,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia leucomelana (KIRBY 1802),gbif:6096935,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.59,mean,mm,5,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Osmia ligurica Morawitz, 1868",gbif:5039008,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8.5,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia longula,gbif:5039434,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.096938735,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia marginipennis,gbif:5039084,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.622448933,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia melanogaster,gbif:5039239,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.84,mean,mm,13,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Osmia microdonta,gbif:5039188,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.33,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia montana,gbif:5039162,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.49,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia montana montana,gbif:5039162,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.498498974,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia nemoris,gbif:5039105,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.21,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia nemoris,gbif:5039105,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.35,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia nemoris,gbif:5039105,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.25,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia nigrifrons,gbif:5039024,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.49,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia nigrifrons,gbif:5039024,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.548387056,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Osmia nigriventris,gbif:5039103,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.82,mean,mm,NA,0.06,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Osmia nigriventris,gbif:5039103,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.4,mean,mm,NA,0.07,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia nigriventris,gbif:5039103,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,64,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia nigriventris,gbif:5039103,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.37,mean,mm,NA,NA,NA,64,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia niveata,gbif:5039370,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.46,mean,mm,14,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Osmia niveata (Fabricius, 1804)",gbif:5039370,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,10.7,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia paradisica,gbif:5039332,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.588707106,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia parietina,gbif:5039158,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,65,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia parietina,gbif:5039158,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.64,mean,mm,NA,NA,NA,65,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Beyer, N., Kirsch, F., Gabriel, D., & Westphal, C. (2021). Identity of mass-flowering crops moderates functional trait composition of pollinator communities. Landscape Ecology, 36(9), 2657-2671.",https://doi.org/10.1111/1365-2664.13745,Osmia parietina Curtis 1828,gbif:5039158,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2,single observation,mm,NA,NA,NA,NA,NA,"summer of 2017 and wild bee sampling was repeated three times between May and August (early summer: 22.05.–19.06., mid-summer: 22.06.–20.07., late summer: 27.07.–22.08.)",NA,NA,adult,"close to Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in eastern Germany close to Leipzig",51°32´N; 53°55´N; 51°20´N,9°56´E; 9°30´E; 12°22´E,NA,NA,NA,Germany,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Osmia pedicornis,gbif:5039127,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.88,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia pentstemonis,gbif:5039292,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.25806448,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia physariae,gbif:5039257,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.059740183,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia pumila,gbif:5039117,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,8.2,mean,mm,21,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia pumila,gbif:5039117,body size,front wing length,NA,NA,NA,species,5.6,mean,mm,21,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia pumila,gbif:5039117,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,25-50,mean,percentage,21,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Osmia pumila,gbif:5039117,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,2,mean,mm,21,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Osmia pumila,gbif:5039117,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Osmia pumila,gbif:5039117,body size,undefined,NA,NA,NA,species,7.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia pusilla,gbif:5039081,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.775538929,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia rapunculi (Lepeletier 1841),gbif:9547996,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.65,single observation,mm,1,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia rapunculi (Lepeletier 1841),gbif:9547996,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.65,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Osmia rapunculi (Lepeletier 1841),gbif:9547996,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,individual,3.02,single observation,mm,NA,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Osmia regulina,gbif:5039469,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.98,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Osmia rufa,gbif:5039314,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.79,mean,mm,NA,0.01,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Osmia rufa,gbif:5039314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.07,mean,mm,NA,0.19,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Osmia rufa (Linnaeus, 1758)",gbif:5039314,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,2.85,mean,mm,10,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Osmia rufohirta,gbif:5039194,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,2.53,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia rufohirta,gbif:5039194,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.53,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Osmia rufohirta LATREILLE 1811,gbif:5039194,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.12,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia rufohirta LATREILLE 1812,gbif:5039194,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.12,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia rufohirta LATREILLE 1812,gbif:5039194,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.84,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Osmia scutellaris Morawitz, 1868",gbif:5039009,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,7,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Osmia sp,gbif:1337664,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,12.36,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,"Osmia sp. ""FA""",gbif:1337664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.71,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,"Osmia sp. ""FC""",gbif:1337664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia sp. 1,gbif:1337664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.92,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Osmia sp. 1,gbif:1337664,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.24,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Osmia sp1,gbif:1337664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.71,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia sp1,gbif:1337664,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.89516126,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia spinulosa,gbif:6096937,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.03,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia spinulosa (KIRBY 1802),gbif:6096937,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.84,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Osmia spinulosa (KIRBY 1802),gbif:6096937,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.84,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Osmia spinulosa (KIRBY 1802),gbif:6096937,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.35,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Osmia spinulosa (Kirby, 1802)",gbif:6096937,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.5,mean,mm,7,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia subaustralis,gbif:5039198,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.659829616,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Osmia submicans,gbif:5039303,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.16,mean,mm,12,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia tersula,gbif:5039076,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.282467447,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia trevoris,gbif:5039443,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.372,mean,mm,NA,NA,NA,NA,NA,2011,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia trevoris,gbif:5039443,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.147302454,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Osmia tristella,gbif:5039410,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.701787415,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia uncinata,gbif:5039053,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,66,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Osmia uncinata,gbif:5039053,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.64,mean,mm,NA,NA,NA,66,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Osmia uncinata Gerstäcker, 1869",gbif:5039053,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.9,mean,mm,2,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Osmia virga,gbif:5039312,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.24,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.35,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.28,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.16,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.47,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.49,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.45,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.56,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.62,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.5,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.47,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.47,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.3,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.55,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.63,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.4,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.24,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.96,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.24,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.3,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.29,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.09,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.26,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.25,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.05,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.06,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.18,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.3,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.26,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.15,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.3,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.61,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.42,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.47,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.56,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.42,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.19,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.53,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.56,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.4,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.44,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.69,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.33,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.44,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.48,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.38,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.24,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.46,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.55,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.41,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.49,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.42,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.43,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.4,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.53,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.52,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.42,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.62,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.29,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Osmia watsoni,gbif:5039276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.37,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Osmia_atriventris,gbif:5039351,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Osmia_chalybea,gbif:5039083,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Osmia_collinsiae,gbif:5039415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Osmia_cornifrons,gbif:5039354,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.9,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Osmia_georgica,gbif:5039449,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Osmia_lignaria,gbif:5039420,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Osmia_pumila,gbif:5039117,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8515,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Osmia_pumila,gbif:5039117,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.9,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Osmia_subfasciata,gbif:5039175,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.8,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Oxaea flavescens,gbif:1356686,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.12,mean,mm,53,NA,NA,NA,152,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Oxytrigona ignis,gbif:1339260,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,24,NA,NA,NA,154,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Oxytrigona ignis Camargo, 1984",gbif:1339260,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean ,mm,5,NA,NA,NA,sp11,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,Oxytrigona sp1,gbif:1339249,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean ,mm,5,NA,NA,NA,sp12,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,P.ANDRENOIDES,gbif:1355792,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.56,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2141,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,P.OCTOMACULATA,gbif:1356526,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.53,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2142,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,P.PARVUS,gbif:1355689,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.73,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2139,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,P.PRUINOSA,gbif:1339646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.94,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2082,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Panuginus albopilosus (Lucas, 1846)",gbif:1355872,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.89,mean,mm,13,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Panugus banksianus,gbif:1355948,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2,mean,mm,NA,NA,NA,67,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Panugus banksianus,gbif:1355948,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,67,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Panurginus atriceps,gbif:1355847,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2467532,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Panurginus nigrellus,gbif:1355852,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.32,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Steinert, M., Sydenham, M. A. K., Eldegard, K., & Moe, S. R. (2020). Conservation of solitary bees in power-line clearings: sustained increase in habitat quality through woody debris removal. Global Ecology and Conservation, 21, e00823.",https://doi.org/10.1016/j.gecco.2019.e00823,Panurginus romani,gbif:1355874,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"The tongue length was estimated using the BeeIT package in R, which calculates the tongue length based on the taxonomic family and species-specific ITD; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.06,mean,mm,NA,NA,NA,68,NA,2013-2015,NA,female,adult,southeast Norway,59.33°–61.12°N,08.95°–11.36°E,NA,NA,NA,Norway,NA,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Panurginus torchoi,gbif:1355846,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.197402553,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Panurginus tyrolensis,gbif:1355893,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.19,mean,mm,NA,0.12,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Panurginus tyrolensis,gbif:1355893,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.37,mean,mm,NA,0.08,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Panurgus banksianus,gbif:1355948,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Ibanez, S. (2012). Optimizing size thresholds in a plant–pollinator interaction web: towards a mechanistic understanding of ecological networks. Oecologia, 170(1), 233-242.",https://doi.org/10.1007/s00442-012-2290-3,Panurgus banksianus,gbif:1355948,tongue size,tongue width,http://purl.obolibrary.org/obo/HAO_0002607,NA,NA,species,0.3,mean,mm,NA,NA,NA,NA,NA,June - July 2008,NA,NA,adult,"Romanche valley of the central French Alps, on the south-facing aspect of the village of Villar d’Arêne, near the “Station Alpine Joseph Fourier” on the Lautaret Pass",45.34° N,6.34° E,NA,NA,NA,France,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Panurgus calcaratus (Scopoli 1763),gbif:1355949,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.84,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,NA,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Panurgus calcaratus (Scopoli 1763),gbif:1355949,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.84,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Panurgus calcaratus (SCOPOLI 1763),gbif:1355949,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.64,mean,mm,8,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Panurgus calcaratus (SCOPOLI 1763),gbif:1355949,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.64,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Beyer, N., Gabriel, D., Kirsch, F., Schulz‐Kesting, K., Dauber, J., & Westphal, C. (2020). Functional groups of wild bees respond differently to faba bean Vicia faba L. cultivation at landscape scale. Journal of Applied Ecology, 57(12), 2499-2508.",https://doi.org/10.1111/1365-2664.13745,Panurgus calcaratus (Scopoli 1763),gbif:1355949,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.9,mean,mm,4,NA,NA,NA,NA,summer 2017,NA,female,adult,"Göttingen in Central Germany, close to the North Sea in vicinity of the city Itzehoe and in the east of Germany close to Leipzig",51°32′N; 53°55′N; 51°20′N,9°56′E; 9°30′E;12°22′E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Panurgus calcaratus (SCOPOLI 1763),gbif:1355949,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.71,mean,mm,8,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Panurgus calcaratus (Scopoli, 1763)",gbif:1355949,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,7.8,mean,mm,7,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Panurgus calcaratus (Scopoli, 1763)",gbif:1355949,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.66,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Panurgus dentipes,gbif:1355929,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.67,mean,mm,58,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Panurgus dentipes Latreille, 1811",gbif:1355929,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.54,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,North-Western France (Coteaux-du-Layon in Loire Valley),47°23′N,0°42′E,NA,NA,NA,France,NA,NA,NA
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Parapsaenthia puncticutis (Vachal),gbif:1358420,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.7,single observation,mm,NA,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Paratetrapedia connexa,gbif:1344680,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,43,NA,NA,NA,155,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Paratetrapedia fervida (Smith, 1879)  ",gbif:1344700,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.793,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Paratetrapedia fervida (Smith, 1879)  ",gbif:1344700,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,5.356,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Paratetrapedia lineata,gbif:1344705,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.85,mean,mm,24,NA,NA,NA,156,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Paratetrapedia vogeli,gbif:10871036,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.57,mean,mm,7,NA,NA,NA,157,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Paratrigona guatemalensis,gbif:1345604,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Paratrigona incerta,gbif:1345584,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,11,NA,NA,NA,158,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Paratrigona peltata,gbif:1345603,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,11,NA,NA,NA,160,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Paratrigona peltata (Spinola, 1853)",gbif:1345603,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean ,mm,5,NA,NA,NA,sp13,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Paratrigona prosopiformis,gbif:1345582,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,22,NA,NA,NA,161,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Partamona ailyae,gbif:1339734,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean,mm,184,NA,NA,NA,162,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Partamona ailyae Camargo, 1980",gbif:1339734,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean ,mm,5,NA,NA,NA,sp14,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Partamona combinata,gbif:1339727,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,105,NA,NA,NA,163,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Partamona gregaria,gbif:1339731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.75,mean,mm,18,NA,NA,NA,164,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Partamona helleri (Friese, 1900)",gbif:1339721,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.373,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Partamona helleri (Friese, 1900)",gbif:1339721,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.888,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Partamona mulata,gbif:1339732,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.64,mean,mm,23,NA,NA,NA,165,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Partamona pearsoni,gbif:1339712,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,44,NA,NA,NA,166,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Partamona pearsoni (Schwarz, 1938)",gbif:1339712,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean ,mm,5,NA,NA,NA,sp15,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Partamona testacea,gbif:1339728,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,178,NA,NA,NA,167,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Partamona testacea (Klug, 1807)",gbif:1339728,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean ,mm,5,NA,NA,NA,sp16,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Partamona vicina,gbif:1339718,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,149,NA,NA,NA,168,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Patellapis (Dictyohalictus) Michener,gbif:4668425,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.13,mean,mm,7,0.009,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,woodlands
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Patellapis negriticus,gbif:1350962,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.47,mean,mm,NA,NA,NA,B27,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Patellapis negriticus,gbif:1350962,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.99,mean,mm,NA,NA,NA,B27,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Patellapis sp. 1_09,gbif:1350899,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,1.65,mean,mm,60,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Patellapis sp. 1_09,gbif:1350899,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,2.22,mean,mm,60,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Patellapis sp.1_10,gbif:1350899,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.07,mean,mm,8,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Patellapis sp.1_10,gbif:1350899,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,4.03,mean,mm,8,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Figueroa, L. L., Compton, S., Grab, H., & McArt, S. H. (2021). Functional traits linked to pathogen prevalence in wild bee communities. Scientific Reports, 11(1), 7529.",https://doi.org/10.1038/s41598-021-87103-3,Peponapis pruinosa,gbif:1339646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"distance between the bees’ wing bases; Cane, J. H. (1987). Estimation of Bee Size Using Intertegular Span (Apoidea). Journal of the Kansas Entomological Society, 60(1), 145–147.",NA,individual,2.97,single observation,mm,NA,NA,NA,NA,NA,"June 17 to September 11, 2015",NA,male,adult,central New York,NA,NA,NA,NA,NA,USA,New York,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Peponapis pruinosa,gbif:1339646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.13,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Peponapis pruinosa,gbif:1339646,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.38,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Peponapis pruinosa,gbif:1339646,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.86,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Peponapis pruinosa,gbif:1339646,body size,undefined,NA,NA,NA,species,12.49,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 14,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.872,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 15,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.727,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 16,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.954,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 18,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.7,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 18,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.676,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 18,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.72,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 2,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.809,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 33,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.936,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 4,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.911,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 5,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 5,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 50,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.658,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 50,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.692,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 50,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.683,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 51,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 51,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.63,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 51,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 52,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita 6,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.867,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_albovittata,gbif:1356101,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_albovittata,gbif:1356101,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_cuspidata,gbif:1356207,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_cuspidata,gbif:1356207,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.035,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_heterotheceae,gbif:1356439,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_heterotheceae,gbif:1356439,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_missionis,gbif:1356650,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_missionis,gbif:1356650,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_missionis,gbif:1356650,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_missionis,gbif:1356650,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aff_missionis,gbif:1356650,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita affinis,gbif:1356349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.97,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita albipennis,gbif:1356248,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.442,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita albovittata,gbif:1356101,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.055,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita albovittata,gbif:1356101,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.956,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita aridella,gbif:1356470,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.834,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita austini,gbif:1356307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita austini,gbif:1356307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita austini,gbif:1356307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita austini,gbif:1356307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita austini,gbif:1356307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita austini,gbif:1356307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita austini,gbif:1356307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita austini,gbif:1356307,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita bradleyana,gbif:1356499,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.981,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita bradleyana,gbif:1356499,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.983,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita californica,gbif:1356387,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.49,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita californica,gbif:1356387,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2006,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.94,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.02,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita callicerata,gbif:1356364,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita cara,gbif:1356301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita cara,gbif:1356301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita cara,gbif:1356301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita cara,gbif:1356301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita cara,gbif:1356301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita cara,gbif:1356301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita cara,gbif:1356301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita claypolei,gbif:1356067,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita claypolei,gbif:1356067,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.86,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita confusa,gbif:1356471,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.784,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita confusa,gbif:1356471,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita confusa,gbif:1356471,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.72,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.26,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.28,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.31,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.35,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.35,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.29,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.24,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.33,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.33,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.35,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.28,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.3,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.27,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.34,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.29,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.3,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.16,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.19,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.31,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.24,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.28,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.26,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.39,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.21,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.24,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita coreopsidis,gbif:1356418,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.74,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.74,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita diversa,gbif:1356450,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita drymariae?,gbif:1356400,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.621,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita drymariae?,gbif:1356400,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.71,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita eriastri,gbif:1356201,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.66,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita eriastri,gbif:1356201,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.71,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356553,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356554,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356555,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356556,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.77,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356557,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356558,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356559,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356561,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356562,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356563,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356564,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356565,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356566,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356567,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356568,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356569,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356570,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356571,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.84,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356572,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356573,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356574,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356575,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356576,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356577,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356578,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356579,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356580,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.83,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356581,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.78,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356582,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356583,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356584,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356585,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.81,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356586,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356587,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356588,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356589,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356590,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356591,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.8,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356592,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.76,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita fallax,gbif:1356593,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.79,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita fieldi,gbif:1356472,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.08,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita fieldi,gbif:1356472,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.14,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita gutierreziae,gbif:1356500,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.981,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita gutierreziae,gbif:1356500,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.062,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Perdita heliotropii,gbif:1356451,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.87,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita hirticeps,gbif:1356338,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita hirticeps,gbif:1356338,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.27,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.89,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.88,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.85,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.9,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.91,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita ignota,gbif:1356226,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.93,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita interrupta,gbif:1356614,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita interrupta,gbif:1356614,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.27,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita larreae,gbif:1356332,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.63,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita larreae,gbif:1356332,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.56,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita lenis,gbif:1356259,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.739,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita lenis,gbif:1356259,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.766,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita luteola,gbif:1356608,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.951,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita luteola,gbif:1356608,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.052,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.7,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.67,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.72,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.69,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.69,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.7,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.62,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.65,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.6,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.73,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.68,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita marcialis,gbif:1356415,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.75,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita minima,gbif:1356055,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.34,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita minima,gbif:1356055,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.38,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita rectangulata,gbif:1356088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.919,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita rectangulata,gbif:1356088,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.025,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita rhois,gbif:1356584,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.89,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita rhois,gbif:1356584,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.94,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.06,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.11,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.085,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.954,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.015,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.139,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.099,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.08,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.922,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.1,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.926,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.135,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.951,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.104,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.04,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.059,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.047,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.016,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.102,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.029,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.059,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.019,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.05,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.052,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.07,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.982,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.097,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.151,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.019,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.853,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.992,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.009,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.099,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.038,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.015,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita semicaerulea,gbif:1356281,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.949,mean,mm,NA,NA,NA,NA,NA,2019,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita sp. 1,gbif:1356038,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita sp. 1,gbif:1356038,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.61,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita sphaeralceae,gbif:1356640,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.198,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita sphaeralceae,gbif:1356640,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.235,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita trinotata,gbif:1356635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.739,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita trinotata,gbif:1356635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.828,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita trisgnata,gbif:1356610,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.15,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Perdita trisgnata,gbif:1356610,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.21,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita verbesinae,gbif:1356368,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.375,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Perdita verbesinae,gbif:1356368,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.17,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Perditomorpha sp.  ,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.65,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Perditomorpha sp.  ,NA,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.39,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Pithitis smaragdula,gbif:1341529,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,NA,NA,NA,B28,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Pithitis smaragdula,gbif:1341529,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.1,mean,mm,NA,NA,NA,B28,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Plebeia alvarengai,gbif:1345560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,17,NA,NA,NA,169,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Plebeia alvarengai Moure, 1994",gbif:1345560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean ,mm,5,NA,NA,NA,sp17,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Plebeia cfr. droryana  ,gbif:1345546,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.946,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Plebeia cfr. droryana  ,gbif:1345546,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.02,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Plebeia kerri (aff.) Moure, 1950",gbif:1345569,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.1,mean ,mm,5,NA,NA,NA,sp18,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Plebeia minima,gbif:1345574,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.9,mean,mm,24,NA,NA,NA,170,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Plebeia minima (Gribodo, 1893)",gbif:1345574,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.9,mean ,mm,5,NA,NA,NA,sp19,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Plebeia remota (Holmberg, 1903)  ",gbif:1345568,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,1.06,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Plebeia remota (Holmberg, 1903)  ",gbif:1345568,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,2.252,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protandrena 1,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.22,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protandrena 1,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.166,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protandrena 1,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.207,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protandrena 2,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.193,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protandrena 2,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.153,mean,mm,NA,NA,NA,NA,NA,2009,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protandrena 2,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.343,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protandrena 3,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.678,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Protosmia rubifloris,gbif:1334783,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.47,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protoxaea gloriosa,gbif:1355803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,5.133,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protoxaea gloriosa,gbif:1355803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,5.166,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Protoxaea gloriosa,gbif:1355803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,5.134,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Pseudagapostemon arenarius (Schrottky, 1902)b",gbif:1351716,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,1.075,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Pseudagapostemon arenarius (Schrottky, 1902)b",gbif:1351716,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,3.143,NA,mm,3,NA,NA,NA,NA,,,F/M,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Pseudagapostemon olivaceosplendens (Strand),gbif:1351721,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6.5,mean,mm,5,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Pseudapis (Pachynomia) Pauly,gbif:4573433,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.14,mean,mm,3,0.006,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,savannah
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Pseudapis (Pseudapis) Kirby,gbif:1353092,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.17,mean,mm,6,0.011,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,savannah
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Pseudapis diversipes,gbif:1353125,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.78,mean,mm,4,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Pseudapis diversipes (Latreille, 1806)",gbif:1353125,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,8,mean,mm,2,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Pseudapis sp.,gbif:1353092,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,7.38,mean,mm,NA,0.07,std error,1,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Pseudapis sp.,gbif:1353092,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,3.79,mean,mm,NA,0.02,std error,1,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Pseudapis sp.,gbif:1353092,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.49,mean,mm,NA,0.04,std error,1,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Pseudapis sp.,gbif:1353092,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,4.08,mean,mm,NA,0.03,std error,1,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Pseudapis sp.,gbif:1353092,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,2.56,mean,mm,NA,0.12,std error,1,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Pseudaugochlora callaina Almeida, 2008",gbif:1352502,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,1.703,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Pseudaugochlora callaina Almeida, 2008",gbif:1352502,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,5.369,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Pseudaugochlora flammula,gbif:1352510,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,14,NA,NA,NA,171,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Pseudaugochlora graminea,gbif:1352499,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.32,mean,mm,75,NA,NA,NA,172,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Pseudaugochlora indistincta Almeida, 2008",gbif:1352503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,mean,1.82,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Pseudaugochlora indistincta Almeida, 2008",gbif:1352503,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,mean,4.366,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Pseudaugochloropsis sp. 1,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.62,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Pseudaugochloropsis sp. 2,NA,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.55,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Pseudoanthidium nanum,gbif:9309752,body size,undefined,NA,NA,NA,species,7.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Pseudoanthidium sp1_10,gbif:1334636,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,individual,2.85,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Pseudoanthidium sp1_10,gbif:1334636,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,individual,5.11,single observation,mm,NA,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Pseudoanthidium tuberculiferum FRIESE 1905,gbif:1334644,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.31,mean,mm,3,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Pseudoanthidium tuberculiferum FRIESE 1905,gbif:1334644,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.9,mean,mm,3,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Pseudopanurgus 1,gbif:1355656,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.26,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Pseudopanurgus 1,gbif:1355656,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.09,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Pseudopanurgus 2,gbif:1355656,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.14,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Pseudopanurgus fraterculus,gbif:1355794,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.44,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Pseudopanurgus fraterculus,gbif:1355794,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Pseudopanurgus fraterculus,gbif:1355794,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.62,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Pseudopanurgus parvus,gbif:1355689,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,6,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Pseudopanurgus sp. 1,gbif:1355656,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Ptilothrix relata (Holmberg),gbif:5040494,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,10.2,mean,mm,3,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Ptilothrix_bombiformis,gbif:5040501,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,3.3,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Ptilotrigona lurida,gbif:1345293,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,248,NA,NA,NA,173,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Ptilotrigona lurida (Smith, 1854)",gbif:1345293,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean ,mm,5,NA,NA,NA,sp20,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Rhathymus sp.  ,gbif:1342682,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.9,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Rhathymus sp.  ,gbif:1342682,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,9.626,NA,mm,2,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Rhinocorynura briseis,gbif:1352135,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,10,NA,NA,NA,174,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Rhodanthidium septemdentatum (Latreille, 1809)",gbif:1334622,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",species,14.2,mean,mm,5,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Rhophitoides canus,gbif:9445413,body size,thorax length,NA,mean thorax length,NA,species,8,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Rhophitoides canus (EVERSMANN 1852),gbif:9445413,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.67,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Rhophitoides canus (EVERSMANN 1852),gbif:9445413,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.67,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Rhophitoides canus (EVERSMANN 1852),gbif:9445413,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.25,mean,mm,2,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Rophites quinquespinosus Spinola, 1808",gbif:1352014,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.13,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,S.CAROLINUS,gbif:5042548,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2206,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,S.CLEMATIDIS,gbif:5042424,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2203,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,S.CONFERTUS,gbif:5042369,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2204,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,S.CRESSONI,gbif:5042432,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2205,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,S.DICHROUS,gbif:5042627,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.7,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2200,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,S.MANDIBULARIS,gbif:5042583,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2201,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,S.RANUNCULI,gbif:5042429,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.16,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2199,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,S.SOLONIS,gbif:5042546,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2202,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Scaptotrigona cfr. xanthotricha  ,gbif:1345667,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.483,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,Scaptotrigona cfr. xanthotricha  ,gbif:1345667,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,3.11,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Scaptotrigona mexicana,gbif:1345658,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.43,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Scaptotrigona polysticta,gbif:1345659,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2,mean,mm,24,NA,NA,NA,175,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Scaptotrigona positica (aff.) (Latreille, 1807)",gbif:1345666,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean ,mm,5,NA,NA,NA,sp21,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Scaptotrigona postica,gbif:1345666,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,50,NA,NA,NA,176,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Scaptotrigona xanthotricha,gbif:1345667,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.8,mean,mm,39,NA,NA,NA,177,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Scaura amazonica (Nogueira, Oliveira & Oliveira, 2019)",gbif:10787725,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean ,mm,5,NA,NA,NA,sp22,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Scaura latitarsis,gbif:1345651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean,mm,103,NA,NA,NA,178,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Scaura latitarsis (Friese, 1900)",gbif:1345651,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.1,mean ,mm,5,NA,NA,NA,sp23,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Schwarzula timida,gbif:1340773,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.02,mean,mm,40,NA,NA,NA,179,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Scrapter heterodoxus (COCKERELL 1921),gbif:1350774,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.93,mean,mm,4,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Scrapter heterodoxus (COCKERELL 1921),gbif:1350774,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.43,mean,mm,4,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Seladonia (Seladonia) Robertson,gbif:1353491,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.15,mean,mm,6,0.005,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 4,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.71,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 4,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 4,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 4,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.82,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 4,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.72,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.87,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.86,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.01,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.95,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.97,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.03,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.96,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.99,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.92,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.98,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 6,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 6,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.52,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 6,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.54,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 6,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.55,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodes 6,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.45,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes albilabris,gbif:1351582,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.18,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Sphecodes albilabris (Fabricius, 1793)",gbif:1351582,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.82,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Sphecodes atlantis/cressonii,gbif:1351262,body size,undefined,NA,NA,NA,species,5.16,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Sphecodes coronus,gbif:5042525,body size,undefined,NA,NA,NA,species,6.24,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes craoticus,gbif:1351326,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.18,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes crassus Thomson, 1870",gbif:1351387,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.28,mean,mm,19,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Sphecodes davisii,gbif:5042377,body size,undefined,NA,NA,NA,species,9.78,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes ephippius,gbif:1351470,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.45,mean,mm,9,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Sphecodes ephippius,gbif:1351470,body size,thorax length,NA,mean thorax length,NA,species,6,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes ephippius (Linné, 1767)",gbif:1351470,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.39,mean,mm,110,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Sphecodes ephippius (Linnaeus, 1767)",gbif:1351470,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.36,mean,mm,2,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Sphecodes ephippius (LINN� 1767),gbif:1351470,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.36,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Sphecodes ferruginatus,gbif:1351360,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.12,mean,mm,NA,0.06,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes ferruginatus,gbif:1351360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,6,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Sphecodes ferruginatus,gbif:1351360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.34,mean,mm,NA,0.08,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Sphecodes ferruginatus HAGENS 1882,gbif:1351360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.59,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes ferruginatus Hagens, 1882",gbif:1351360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.43,mean,mm,40,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Sphecodes ferruginatus Hagens,1882",gbif:1351360,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.59,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes geoffrellus (Kirby, 1802)",gbif:5042560,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,individual,1.11,single observation,mm,1,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes gibbus,gbif:1351491,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.71,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Maas, B., Brandl, M., Hussain, R. I., Frank, T., Zulka, K. P., Rabl, D., ... & Moser, D. (2021). Functional traits driving pollinator and predator responses to newly established grassland strips in agricultural landscapes. Journal of Applied Ecology, 58(8), 1728-1737.",https://doi.org/10.1111/1365-2664.13892,Sphecodes gibbus,gbif:1351491,body size,thorax length,NA,mean thorax length,NA,species,7,mean,mm,NA,NA,NA,NA,NA,16-Aug,NA,NA,adult, the vicinity of the villages Ollern and Elsbach in Sieghartskirchen,48°16′02.5″N; 48°15′08.3″N,16°05′07.9″E; 16°02′56.9″E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Sphecodes gibbus (LINNAEUS 1758),gbif:1351491,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.27,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Geppert, C., Cappellari, A., Corcos, D., Caruso, V., Cerretti, P., Mei, M., & Marini, L. (2023). Temperature and not landscape composition shapes wild bee communities in an urban environment. Insect Conservation and Diversity, 16(1), 65-76.",https://doi.org/10.1111/icad.12602,"Sphecodes gibbus (Linnaeus, 1758)",gbif:1351491,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,we measured body length of pinned specimens from head to metasoma end using graph paper,"We measured one to five individuals, proportionally to how many specimens we collected in the field. For each species, whenever possible, we measured at least one female and one male. We then calculated the mean body size value for each species.",individual,11.3,single observation,mm,NA,NA,NA,NA,NA,mid-June to mid-September 2016,NA,NA,adult,Rome,41°53′ N,12°29′ E,NA,NA,NA,Italy,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes gibbus (Linnaeus, 1758)",gbif:1351491,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.59,mean,mm,20,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Sphecodes giibus (Linnaeus, 1758)",gbif:1351491,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.27,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes hyalinatus Hagens, 1882",gbif:1351574,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.45,mean,mm,30,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes longulus,gbif:1351335,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.95,mean,mm,14,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes majalis,gbif:1351577,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.29,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes miniatus,gbif:1351330,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.99,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes monilicornis,gbif:1351304,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,57,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes monilicornis (Kirby, 1802)",gbif:1351304,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.5,mean,mm,10,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes niger,gbif:1351513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes niger Hagens, 1874",gbif:1351513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,0.92,mean,mm,10,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Sphecodes nr banksi,gbif:5042551,body size,undefined,NA,NA,NA,species,4.5,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Sphecodes nr mandibularis,gbif:5042583,body size,undefined,NA,NA,NA,species,6.13,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes pellucidus,gbif:1351446,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.36,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Sphecodes prosphorus,gbif:5042619,body size,undefined,NA,NA,NA,species,9.2,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes puncticeps,gbif:1351481,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.08,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Sphecodes ranunculi,gbif:5042429,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,individual,9.6,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Sphecodes ranunculi,gbif:5042429,body size,front wing length,NA,NA,NA,individual,6.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Sphecodes ranunculi,gbif:5042429,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,individual,0-25,single observation,percentage,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Sphecodes ranunculi,gbif:5042429,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,individual,1.8,single observation,mm,NA,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes reticulatus,gbif:1351332,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.21,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Sphecodes ruficrus (ERICHSON 1835),gbif:1351540,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.03,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Sphecodes ruficrus (Erichson, 1835)",gbif:1351540,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.5,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Montilla Moriles in Andalusia,37°35′N,4°38′W,NA,NA,NA,Spain,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes rufiventris,gbif:1351503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.22,mean,mm,2,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Sphecodes rufiventris (PANZER 1798),gbif:1351503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Jauker, B., Krauss, J., Jauker, F., & Steffan-Dewenter, I. (2013). Linking life history traits to pollinator loss in fragmented calcareous grasslands. Landscape Ecology, 28, 107-120.",https://doi.org/10.1007/s10980-012-9820-6,"Sphecodes rufiventris (Panzer, 1798)",gbif:1351503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between the two insertion points of the wings.,NA,species,1.22,mean,mm,2,NA,NA,NA,NA,2004,NA,NA,adult,Leine-Weser Mountains around the city of Göttingen in Lower Saxony,NA,NA,NA,NA,NA,Germany,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Sphecodes rufiventris (Panzer, 1798)",gbif:1351503,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.25,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Sphecodes scabricollis,gbif:1351392,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.27,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Sphecodes schenkii Hagens, 1882",gbif:7854099,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.47,single observation,mm,NA,NA,NA,NA,NA,2016,NA,NA,adult,Târnave in Transylvania,46°13′N,24°06′E,NA,NA,NA,Romania,NA,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Sphecodes sp,gbif:1351262,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,12.54,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Sphecodes sp.,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 1,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.86,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 1,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.37,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 10,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.95,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 10,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.31,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 2,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.89,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 2,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.23,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 3,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 3,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.54,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 4,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.84,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 4,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.17,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 5,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.48,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 5,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.01,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 6,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.72,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 6,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.32,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 7,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.69,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 7,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,0.96,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 8,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.82,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 8,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.14,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 9,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.03,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Sphecodes sp. 9,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,1.42,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Sphecodes sp.f1,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.09090905,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Sphecodes sp.f3,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.837662306,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Sphecodes sp.f4,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.71428565,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Sphecodes_sp,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Sphecodosoma dicksoni,gbif:1352130,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,0.914,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Steganomus sp.,gbif:1351262,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,8.06,mean,mm,NA,0.02,std error,6,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Steganomus sp.,gbif:1351262,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,4.51,mean,mm,NA,0.09,std error,6,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Steganomus sp.,gbif:1351262,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.96,mean,mm,NA,0.02,std error,6,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Steganomus sp.,gbif:1351262,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,4.87,mean,mm,NA,0.06,std error,6,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Steganomus sp.,gbif:1351262,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,3.18,mean,mm,NA,0.35,std error,6,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Stelis bh.f1,gbif:1334181,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.424242371,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Stelis bh.f2,gbif:1334181,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.636363575,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Stelis calliphorina,gbif:5038448,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.902597331,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Stelis louisae,gbif:5038459,body size,undefined,NA,NA,NA,species,8,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Stelis micheneri,gbif:5038428,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.12,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Stelis micheneri,gbif:5038428,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.08,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Stelis minuta LEPELETIER & SERVILLE 1825,gbif:1334276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.2,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Stelis montana,gbif:1334299,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.29,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Stelis montana,gbif:1334299,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.94285707,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Glenny, W., Runyon, J. B., & Burkle, L. A. (2023). Habitat characteristics structuring bee communities in a forest-shrubland ecotone. Forest Ecology and Management, 534, 120883. https://doi.org/10.1016/j.foreco.2023.120883",https://doi.org/10.1016/j.foreco.2023.120883,Stelis monticola,gbif:5038491,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.155844075,mean,mm,NA,NA,NA,NA,NA,NA,NA,female,adult,Beaverhead-Deerlodge National Forest,NA,NA,NA,NA,NA,USA,Montana,NA,high elevation sagebrush basin
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Stelis palmarum,gbif:5038442,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.2,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Stelis palmarum,gbif:5038442,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.22,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Stelis palmarum,gbif:5038442,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Stelis palmarum,gbif:5038442,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.23,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Stelis punctulatissima,gbif:1334291,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.24,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Stelis punctulatissima,gbif:1334291,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.59,mean,mm,20,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Stelis punctulatissima,gbif:1334291,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.3,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Stelis robertsoni,gbif:5038457,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.111,mean,mm,NA,NA,NA,NA,NA,2008,NA,M,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Stelis_lateralis,gbif:5038492,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.7,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Stellis minuta,gbif:1334276,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.34,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Svastra (Epimelissodes) albocollaris,gbif:1345631,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.05,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Svastra albocollaris,gbif:1345631,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.24,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra compta,gbif:1345611,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,4.138,mean,mm,NA,NA,NA,NA,NA,2008,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra compta,gbif:1345611,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.809,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra helianthelli,gbif:1345645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.858,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra helianthelli,gbif:1345645,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.702,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra machaerantherae,gbif:1345613,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.998,mean,mm,NA,NA,NA,NA,NA,2002,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra machaerantherae,gbif:1345613,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.884,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra obliqua,gbif:1345635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.439,mean,mm,NA,NA,NA,NA,NA,2003,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra obliqua,gbif:1345635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.883,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra obliqua,gbif:1345635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.727,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Svastra sabinensis,gbif:1345615,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.727,mean,mm,NA,NA,NA,NA,NA,2001,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Svastra_obliqua,gbif:1345635,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4.1,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Svastra_petulca,gbif:1345639,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.9,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Systropha curvicornis (SCOPOLI 1770),gbif:1351642,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,1.98,mean,mm,41,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Systropha curvicornis (SCOPOLI 1770),gbif:1351642,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,1.98,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Systropha curvicornis (SCOPOLI 1770),gbif:1351642,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.64,mean,mm,41,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Systropha curvicornis (Scopoli, 1770)",gbif:1351642,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.97,mean,mm,14,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Systropha planidens GIRAUD 1862,gbif:1351648,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.29,mean,mm,8,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guernion, M., Burel, F., Nicolai, A., Strauss, P., Bauer, T., Kriechbaum, M., Zaller, J. G., & Winter, S. (2018). Tillage intensity or landscape features: What matters most for wild bee diversity in vineyards? Agriculture, Ecosystems & Environment, 266, 142�152. https://doi.org/10.1016/j.agee.2018.07.018",https://doi.org/10.1016/j.agee.2018.07.018,Systropha planidens GIRAUD 1862,gbif:1351648,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,2.29,mean,mm,1 to 5,NA,NA,NA,NA,2015 - 2016,NA,NA,adult,Carnuntum and Neusiedlersee-H�gelland,"48� 04_ N; 47� 54_ N,",16� 47_ E; 16� 41_ E,NA,NA,NA,Austria,NA,NA,vineyard
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Systropha planidens GIRAUD 1862,gbif:1351648,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,3.04,mean,mm,8,NA,NA,NA,NA,2015-2016,NA,NA,adult,two Eastern Austrian viticultural areas: Carnuntum and Neusiedlersee–Hügelland,48°04′N; 7°54′N,16°47′E; 16°41′E,NA,NA,NA,Austria,NA,NA,NA
"Kratschmer, S., Pachinger, B., Schwantzer, M., Paredes, D., Guzmán, G., Goméz, J. A., ... & Winter, S. (2019). Response of wild bee diversity, abundance, and functional traits to vineyard inter‐row management intensity and landscape diversity across Europe. Ecology and Evolution, 9(7), 4103-4115.",https://doi.org/10.1002/ece3.5039,"Systropha planidens Giraud, 1861",gbif:1351648,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.06,mean,mm,3,NA,NA,NA,NA,2016,NA,NA,adult,"Eastern Austria (Carnuntum; 48°6′N, 16°51′E and Neusiedler See-Hügelland; 47°52′N, 16°37′E Lower Austria and Burgenland)",,,NA,NA,NA,Austria,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,T.OBLITERATUS,gbif:1341622,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.83,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2207,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,T.PECTORALIS,gbif:1341731,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.85,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2211,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,T.REGIMENATUS,gbif:1341789,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.6,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2208,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Tapinotaspoides serraticornis,gbif:1343020,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,32,NA,NA,NA,180,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Tetragona clavipes,gbif:5039561,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,161,NA,NA,NA,181,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Tetragona dorsalis,gbif:5039557,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.14,mean,mm,42,NA,NA,NA,182,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Tetragona goettei,gbif:5039568,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,153,NA,NA,NA,183,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Tetragonisca angustula,gbif:1339480,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1,mean,mm,193,NA,NA,NA,184,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Tetragonisca angustula (Latreille, 1811)  ",gbif:1339480,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.81,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Tetragonisca angustula (Latreille, 1811)  ",gbif:1339480,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.165,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Tetralonia (Thygatina) Cockerell,gbif:4675756,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.29,mean,mm,4,0.011,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Tetralonia malvae,gbif:9761295,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.61,mean,mm,257,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Tetraloniella alticincta,gbif:1343048,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,1.04,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Tetraloniella davidsoni,gbif:1343081,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.33,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Tetraloniella davidsoni,gbif:1343081,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,6.75,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Tetraloniella dentata,gbif:1343068,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.46,mean,mm,3,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Tetraloniella junodi (FRIESE 1909),gbif:1343056,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,2.92,mean,mm,65,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Tetraloniella junodi (FRIESE 1909),gbif:1343056,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.97,mean,mm,65,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Tetraloniella pomonae,gbif:1343050,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.78,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Tetraloniella pomonae,gbif:1343050,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.68,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Tetraloniella sp. 1,gbif:1343025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.19,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Tetraloniella sp. 2,gbif:1343025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.16,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Tetraloniella sp. nov. 1,gbif:1343025,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.58,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Hung, K. L. J., Ascher, J. S., Davids, J. A., & Holway, D. A. (2019). Ecological filtering in scrub fragments restructures the taxonomic and functional composition of native bee assemblages. Ecology, 100(5), e02654.",https://doi.org/10.1002/ecy.2654,Tetraloniella sp. nov. 1,gbif:1343025,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,5.29,mean,mm,NA,NA,NA,NA,NA,April and August of 2011 and 2012,NA,female,adult, San Diego County,NA,NA,NA,NA,NA,USA,California,San Diego County,coastal sage scrub
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Tetrapedia albodecorata,gbif:5040781,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,4,NA,NA,NA,185,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Tetrapedia sp. 1,gbif:1345432,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.1,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Thrinchostoma (Thrinchostoma) Saussure,gbif:1352702,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.19,mean,mm,4,0.01,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,woodlands
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Thygater analis (Lepeletier, 1841)",gbif:1344790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.155,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Thygater analis (Lepeletier, 1841)",gbif:1344790,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,6.419,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Dalmazzo, M., Zumoffen, L., Ghiglione, C., Roig-Alsina, A., & Chacoff, N. (2024). Diversity and biological traits of bees visiting flowers of Cucurbita maxima var. Zapallito differ between biodiversity-based and conventional management practices. Environmental Monitoring and Assessment, 196(1), 6. https://doi.org/10.1007/s10661-023-12161-1",https://doi.org/10.1007/s10661-023-12161-1,Thygater analis (Lepeletier),gbif:1344790,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,11.6,mean,mm,10,NA,NA,NA,NA,November 2013 to January 2014,NA,NA,adult,Santa Rosa de Calchines; Santa Fe city,31�25_00__S; 31�33_18__S,60�20_00__W; 60�40_37__W,NA,NA,NA,Argentina,Santa Fe,NA,agricultural
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Thygater armandoi Urban, 1999",gbif:1344789,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.988,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Thygater armandoi Urban, 1999",gbif:1344789,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,9.769,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Thygater palliventris (Friese, 1908)  ",gbif:1344786,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,single observation,2.7,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Thygater palliventris (Friese, 1908)  ",gbif:1344786,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,single observation,5.527,NA,mm,1,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Thyreus ramosus,gbif:1344841,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,2.4,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Thyreus sp.,gbif:1344814,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,15.75,mean,mm,NA,0.64,std error,15,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Thyreus sp.,gbif:1344814,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,8.7,mean,mm,NA,0.12,std error,15,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Thyreus sp.,gbif:1344814,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,3.62,mean,mm,NA,0.12,std error,15,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Thyreus sp.,gbif:1344814,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,10.69,mean,mm,NA,0.15,std error,15,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Thyreus sp.,gbif:1344814,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,5.83,mean,mm,NA,0.17,std error,15,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Townsendiella pulchra,gbif:1341967,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.269,mean,mm,NA,NA,NA,NA,NA,2011,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Trachusa byssina,gbif:5038591,pilosity,hair length,http://purl.obolibrary.org/obo/HAO_0002608,used the hair length at the mesonotum as a proxy for the ‘hair volume’ of the bee,NA,species,0.38,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Peters, M. K., Peisker, J.,Steffan‐Dewenter, I., & Hoiss, B. (2016). Morphological traits are linked to the cold performance and distribution of bees along elevational gradients. Journal of Biogeography, 43(10), 2040-2049.",https://doi.org/10.1111/jbi.12768,Trachusa byssina,gbif:5038591,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.2,mean,mm,NA,NA,std dev,NA,NA,April - July 2013,NA,NA,adult,"National Park Berchtesgaden, northern Alps",49.7833° N,9.9333° E,NA,NA,NA,Germany,NA,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Trachusa larreae,gbif:5038595,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.915,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Trachusa larreae,gbif:5038595,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.861,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Trichocerapis mirabilis (Smith, 1865)",gbif:1345243,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.083,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Trichocerapis mirabilis (Smith, 1865)",gbif:1345243,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,12.459,NA,mm,3a,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Triepeolus 7,gbif:1341601,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.776,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Triepeolus 9,gbif:1341601,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.468,mean,mm,NA,NA,NA,NA,NA,2014,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Triepeolus 9,gbif:1341601,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.38,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Triepeolus grandis,gbif:1341642,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.299,mean,mm,NA,NA,NA,NA,NA,2004,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Triepeolus helianthi,gbif:1341761,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.54,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Triepeolus lunatus,gbif:1341604,body size,undefined,NA,NA,NA,species,11,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Triepeolus norae,gbif:1341634,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.914,mean,mm,NA,NA,NA,NA,NA,2005,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Triepeolus norae,gbif:1341634,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.1,mean,mm,NA,NA,NA,NA,NA,2015,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Triepeolus norae,gbif:1341634,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,2.17,mean,mm,NA,NA,NA,NA,NA,2016,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Triepeolus timberlakeii,gbif:1341737,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.71,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Trigona acapulconis,gbif:1343214,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona albipennis,gbif:5040787,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.49,mean,mm,70,NA,NA,NA,186,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona amazonensis,gbif:5040800,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,114,NA,NA,NA,187,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona branneri,gbif:5040789,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,196,NA,NA,NA,188,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigona branneri Cockerell, 1912",gbif:5040789,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean ,mm,5,NA,NA,NA,sp24,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Trigona braueri Friese, 1900  ",gbif:5040812,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.213,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Trigona braueri Friese, 1900  ",gbif:5040812,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,2.564,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona chanchamayoensis,gbif:5040802,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,116,NA,NA,NA,189,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona cilipes,gbif:5040791,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.58,mean,mm,48,NA,NA,NA,190,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona dallatorreana,gbif:5040806,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.7,mean,mm,98,NA,NA,NA,191,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona dimidiata,gbif:5040794,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2,mean,mm,23,NA,NA,NA,192,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona fulviventris,gbif:5040807,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,101,NA,NA,NA,193,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Trigona fulviventris,gbif:5040807,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.63,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona fuscipennis,gbif:5040795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean,mm,75,NA,NA,NA,194,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigona fuscipennis (aff.) Friese, 1900",gbif:5040795,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.5,mean ,mm,5,NA,NA,NA,sp26,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona guianae,gbif:5040817,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean,mm,216,NA,NA,NA,195,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigona guianae Cockerell, 1910",gbif:5040817,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.2,mean ,mm,5,NA,NA,NA,sp25,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona hypogea,gbif:5040797,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.35,mean,mm,59,NA,NA,NA,196,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona lacteipennis,gbif:5040798,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.57,mean,mm,5,NA,NA,NA,197,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona pallens,gbif:5040788,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean,mm,114,NA,NA,NA,198,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigona pallens (Fabricius, 1798)",gbif:5040788,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.4,mean ,mm,5,NA,NA,NA,sp27,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona recursa,gbif:5040801,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean,mm,190,NA,NA,NA,199,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigona recursa Smith, 1863",gbif:5040801,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.3,mean ,mm,5,NA,NA,NA,sp28,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona sesquipedalis,gbif:5040790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.2,mean,mm,10,NA,NA,NA,200,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Trigona sp.,gbif:7541754,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,4.81,mean,mm,NA,0.18,std error,20,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Trigona sp.,gbif:7541754,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,3.13,mean,mm,NA,0.11,std error,20,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Trigona sp.,gbif:7541754,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.16,mean,mm,NA,NA,NA,B29,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Trigona sp.,gbif:7541754,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,1.09,mean,mm,NA,0.04,std error,20,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Trigona sp.,gbif:7541754,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,3.75,mean,mm,NA,0.15,std error,20,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Trigona sp.,gbif:7541754,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,2.45,mean,mm,NA,NA,NA,B29,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Trigona sp.,gbif:7541754,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,1.75,mean,mm,NA,0.05,std error,20,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona spinipes,gbif:5040803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.82,mean,mm,347,NA,NA,NA,201,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Trigona spinipes (Fabricius, 1793)  ",gbif:5040803,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.42,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Trigona spinipes (Fabricius, 1793)  ",gbif:5040803,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,1.634,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona truculenta,gbif:5040805,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.5,mean,mm,193,NA,NA,NA,202,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigona williana,gbif:5040793,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.9,mean,mm,159,NA,NA,NA,203,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigonisca dobzhanskyi,gbif:1342004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.85,mean,mm,13,NA,NA,NA,204,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigonisca dobzhanskyi (Moure, 1950)",gbif:1342004,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8,mean ,mm,5,NA,NA,NA,sp29,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigonisca extrema,gbif:1341993,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8,mean,mm,6,NA,NA,NA,205,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigonisca fraissei,gbif:1342006,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8,mean,mm,11,NA,NA,NA,206,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigonisca graeffei,gbif:1341995,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.75,mean,mm,13,NA,NA,NA,207,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigonisca hirticornis Albuquerque & Camargo, 2007",gbif:1342007,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.8,mean ,mm,1,NA,NA,NA,sp30,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigonisca nataliae (Moure, 1950)",gbif:1342014,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.7,mean ,mm,5,NA,NA,NA,sp31,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigonisca pediculana,gbif:1342001,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.74,mean,mm,25,NA,NA,NA,208,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Trigonisca pipioli,gbif:1342015,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.93,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigonisca unidentata Albuquerque & Camargo, 2007",gbif:1341996,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.7,mean ,mm,5,NA,NA,NA,sp32,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Trigonisca variegatifrons,gbif:1341984,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.68,mean,mm,10,NA,NA,NA,209,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Campbell, A. J., Lichtenberg, E. M., Carvalheiro, L. G., Menezes, C., Borges, R. C., Coelho, B. W. T., ... & Maués, M. M. (2022). High bee functional diversity buffers crop pollination services against Amazon deforestation. Agriculture, Ecosystems & Environment, 326, 107777.",https://doi.org/10.1016/j.agee.2021.107777,"Trigonisca vitrifrons Albuquerque & Camargo, 2007",gbif:1342008,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,0.7,mean ,mm,5,NA,NA,NA,sp33,January and June 2016,NA,NA,adult,"Amazon estuary region, close to Belém, Pará state, northern Brazil",NA,NA,NA,NA,NA,Brazil,NA,NA,wet tropical rainforest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Trigonopedia ferruginea (Friese, 1899)  ",gbif:1345703,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,1.497,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Trigonopedia ferruginea (Friese, 1899)  ",gbif:1345703,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,4.636,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Normandin, É., Vereecken, N. J., Buddle, C. M., & Fournier, V. (2017). Taxonomic and functional trait diversity of wild bees in different urban settings. PeerJ, 5, e3051.",https://doi.org/10.7717/peerj.3051,X.VIRGINIANA,gbif:1342324,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.5,mean,mm,NA,NA,NA,NA,NA,September 2012 & 2087,NA,NA,adult,"Montreal, Quebec City",45°30′04″N; 46°48′08″N,73°39′22″O; 71°15′50″O,NA,NA,NA,Canada,NA,NA,NA
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Xeromelecta californica,gbif:1339693,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,2.15,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Xeromelecta interrupta,gbif:1339697,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,3.151,mean,mm,NA,NA,NA,NA,NA,2010,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Guenat, S., Kunin, W. E., Dougill, A. J., & Dallimer, M. (2019). Effects of urbanisation and management practices on pollinators in tropical Africa. Journal of Applied Ecology, 56(1), 214-224.",https://doi.org/10.1111/1365-2664.13270,Xylocopa (Koptortosoma) Gribodo,gbif:4675224,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,0.6,single observation,mm,NA,NA,std error,NA,NA,August and November 2016,NA,NA,adult," Sunyani and Techiman, Brong Ahafo",7°20′05″N; 7°34′53″N,2°19′40″W; 1°56′09″W,NA,NA,NA,Ghana,NA,NA,ubiquitous
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Xylocopa (Neoxylocopa) fimbriata,gbif:1342529,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.79,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Xylocopa (Notoxylocopa) mexicanorum,gbif:1342452,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.84,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Xylocopa (Notoxylocopa) tabbaniformis tabbaniformis ,gbif:1342335,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.18,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Xylocopa (Schonnherria) muscaria,gbif:1342416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.92,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Xylocopa artifex Smith, 1874",gbif:1342412,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,3.406,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Xylocopa artifex Smith, 1874",gbif:1342412,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,6.909,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Xylocopa aurulenta,gbif:1342332,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.7,mean,mm,20,NA,NA,NA,210,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Xylocopa bakeriana,gbif:1342312,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.51,mean,mm,NA,NA,NA,B30,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Xylocopa bakeriana,gbif:1342312,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,12.86,mean,mm,NA,NA,NA,B30,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Xylocopa brasilianorum Cockerell, 1914  ",gbif:1342066,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.73,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Xylocopa brasilianorum Cockerell, 1914  ",gbif:1342066,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,11.381,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Xylocopa californica,gbif:1342141,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,6.449,mean,mm,NA,NA,NA,NA,NA,2007,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Xylocopa carbonaria,gbif:1342394,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.1,mean,mm,12,NA,NA,NA,211,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Xylocopa chlorina,gbif:1342301,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.33,mean,mm,NA,NA,NA,B31,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Hass, A. L., Liese, B., Heong, K. L., Settele, J., Tscharntke, T., & Westphal, C. (2018). Plant-pollinator interactions and bee functional diversity are driven by agroforests in rice-dominated landscapes. Agriculture, Ecosystems & Environment, 253, 140-147.",https://doi.org/10.1016/j.agee.2017.10.019,Xylocopa chlorina,gbif:1342301,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"we used the R package “BeeIT” to estimate tongue length for each species; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,12.51,mean,mm,NA,NA,NA,B31,NA,May and June 2012,NA,NA,adult,Laguna in rice production landscapes close to the city of Los Baños in the South of Luzon,NA,NA,NA,NA,NA,Philippines,Laguna,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Xylocopa frontalis,gbif:1342518,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,8.7,mean,mm,332,NA,NA,NA,212,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Xylocopa frontalis Olivier, 1789  ",gbif:1342518,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.706,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Xylocopa frontalis Olivier, 1789  ",gbif:1342518,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,11.885,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Xylocopa grisescens,gbif:1342051,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.5,mean,mm,135,NA,NA,NA,213,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Xylocopa Iris,gbif:1342279,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,4.33,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Xylocopa iris,gbif:1342279,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,individual,4.33,single observation,mm,NA,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Xylocopa muscaria,gbif:1342416,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.72,mean,mm,34,NA,NA,NA,214,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Xylocopa rufipes,gbif:1342392,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4.59,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Xylocopa rufitarsis LEPELETIER 1841,gbif:1342385,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the distance between the tegulae,NA,species,3.97,mean,mm,2,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Kratschmer, S., Pachinger, B., Gaigher, R., Pryke, J. S., van Schalkwyk, J., Samways, M. J., ... & Winter, S. (2021). Enhancing flowering plant functional richness improves wild bee diversity in vineyard inter‐rows in different floral kingdoms. Ecology and Evolution, 11(12), 7927-7945.",https://doi.org/10.1002/ece3.7623,Xylocopa rufitarsis LEPELETIER 1841,gbif:1342385,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"Mouthpart length (i.e., length of proboscis) of each bee species was estimated based on bee family and average ITD (Table S1) using the R package BeeIT; Cariveau, D. P., Nayak, G. K., Bartomeus, I., Zientek, J., Ascher, J. S., Gibbs, J., & Winfree, R. (2016). The allometry of bee proboscis length and its uses in ecology. PloS one, 11(3), e0151482.",NA,species,8.03,mean,mm,2,NA,NA,NA,NA,August to December 2009 and 2010,NA,NA,adult,town of Stellenbosch,33°57’S,18°46’E,NA,NA,NA,South Africa,Western Cape Province,NA,NA
"Woodcock, B. A., Garratt, M. P. D., Powney, G. D., Shaw, R. F., Osborne, J. L., Soroka, J., ... & Pywell, R. F. (2019). Meta-analysis reveals that pollinator functional diversity and abundance enhance crop pollination and yield. Nature Communications, 10(1), 1481.",https://doi.org/10.1038/s41467-019-09393-6,Xylocopa sp,gbif:1342048,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,28.54,mean,mm,NA,NA,NA,NA,NA,NA,NA,NA,adult,NA,NA,NA,NA,NA,NA,USA; UK; Ireland; Sweden; China,NA,NA,NA
"Ramos-Fabiel, M. A., P�rez-Garc�a, E. A., Gonz�lez, E. J., Y��ez-Ordo�ez, O., & Meave, J. A. (2019). Successional dynamics of the bee community in a tropical dry forest: Insights from taxonomy and functional ecology. Biotropica, 51(1), 62�74. https://doi.org/10.1111/btp.12619",https://doi.org/10.1111/btp.12619,Xylocopa sp. 1,gbif:1342048,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.58,mean,mm,NA,NA,NA,NA,NA,July 2010�May 2011,NA,NA,adult,Nizanda,16�39_40_N,95�00_40_W,,NA,NA,Mexico,Oaxaca,NA,tropical dry forest
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp. 2,gbif:1342048,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,12.93,mean,mm,NA,NA,std error,14,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp. 2,gbif:1342048,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,7.07,mean,mm,NA,NA,std error,14,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp. 2,gbif:1342048,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,4.72,mean,mm,NA,NA,std error,14,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp. 2,gbif:1342048,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,8.11,mean,mm,NA,NA,std error,14,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp.1,gbif:1342048,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,from the front of the head to the tip of the abdomen,NA,species,26.58,mean,mm,NA,0.16,std error,8,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp.1,gbif:1342048,body size,foreleg length,http://purl.obolibrary.org/obo/HAO_0002604,NA,NA,species,15.98,mean,mm,NA,0.05,std error,8,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp.1,gbif:1342048,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,the length between the two originating points (tegulae) of wings,NA,species,6.77,mean,mm,NA,0.31,std error,8,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp.1,gbif:1342048,body size,midleg length,http://purl.obolibrary.org/obo/HAO_0002605,from base of femur to tip of tarsal claws,NA,species,15.72,mean,mm,NA,0.07,std error,8,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Laha, S., Chatterjee, S., Das, A., Smith, B., & Basu, P. (2020). Exploring the importance of floral resources and functional trait compatibility for maintaining bee fauna in tropical agricultural landscapes. Journal of Insect Conservation, 24, 431-443.",https://doi.org/10.1007/s10841-020-00225-3,Xylocopa sp.1,gbif:1342048,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,"(from labiomaxillary tube, where it attaches to the head) to the tip of the glossa after the tongue was fully stretched",NA,species,12.89,mean,mm,NA,0.61,std error,8,NA,NA,NA,NA,adult,"Nilagiri block of Balasore, Odisha (Eastern India)",21° 35′ 6.89″ N; 21° 21′ 17.06″ N,86° 32′ 6.86″ E; 86° 48′ 35.34″ E,NA,NA,NA,India,Odisha,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Xylocopa suspecta,gbif:1342513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,7.02,mean,mm,99,NA,NA,NA,215,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Xylocopa suspecta Moure & Camargo, 1988   ",gbif:1342513,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.306,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Ribeiro, C., Varassin, I. G., Pagioro, T. A., & Souza, J. M. T. D. (2024). Bee and plant traits drive temporal similarity of pollination interactions in areas under distinct restoration strategies. Arthropod-Plant Interactions. https://doi.org/10.1007/s11829-024-10064-7",https://doi.org/10.1007/s11829-024-10064-7,"Xylocopa suspecta Moure & Camargo, 1988   ",gbif:1342513,tongue size,tongue length,http://purl.obolibrary.org/obo/HAO_0002606,NA,NA,species,10.573,NA,mm,3,NA,NA,NA,NA,,,F,adult,"Antonina, Paran�, Southern Brazil",,,NA,NA,NA,Brazil,Paran�,NA,humid subtropical forest
"Forrest, J. R., Thorp, R. W., Kremen, C., & Williams, N. M. (2015). Contrasting patterns in species and functional‐trait diversity of bees in an agricultural landscape. Journal of Applied Ecology, 52(3), 706-715.",https://doi.org/10.1111/1365-2664.12433,Xylocopa tabaniformis,gbif:1342335,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.84,mean,mm,NA,NA,NA,NA,NA,March - August 2002,NA,NA,adult,Sacramento Valley,NA,NA,NA,NA,NA,USA,California,Yuba County,NA
"Shi, X., Axmacher, J. C., Chong, H., Xiao, H., Luo, S., Xu, H., ... & Zou, Y. (2022). Effects of farmland consolidation in southern China on wild bee species composition, nesting location and body size variations. Agricultural and Forest Entomology, 24(3), 371-379.",https://doi.org/10.1111/afe.12500,Xylocopa tranquebarorum,gbif:1342349,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"the distance between the bases of the two wings on the bee's throax; Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,4.5,mean,mm,NA,NA,NA,NA,NA,2019,NA,female,adult,Jiangxi Province,N28°41′,E115°53′,NA,NA,NA,China,Jiangxi Province,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Xylocopa valga,gbif:1342196,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.59,mean,mm,13,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Carrié, R., Andrieu, E., Cunningham, S. A., Lentini, P. E., Loreau, M., & Ouin, A. (2017). Relationships among ecological traits of wild bee communities along gradients of habitat amount and fragmentation. Ecography, 40(1), 85-97.",https://doi.org/10.1111/ecog.02632,Xylocopa violacea,gbif:1342108,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Body size was estimated using the inter-tegular distance (ITD), which is the distance between the nearest edges of the tegulae (plates covering the wing bases)",NA,species,6.5,mean,mm,NA,NA,NA,NA,NA,2013-2014,NA,NA,adult,"southwestern France, in the Vallées et Coteaux de Gascogne",43°17’N,0°54’E,NA,NA,NA,France,NA,NA,NA
"Fortel, L., Henry, M., Guilbaud, L., Guirao, A. L., Kuhlmann, M., Mouret, H., ... & Vaissière, B. E. (2014). Decreasing abundance, increasing diversity and changing structure of the wild bee community (Hymenoptera: Anthophila) along an urbanization gradient. PloS one, 9(8), e104679.",https://doi.org/10.1371/journal.pone.0104679,Xylocopa violacea,gbif:1342108,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.54,mean,mm,30,NA,NA,NA,NA,2011,NA,female,adult,Grand Lyon,45° 46′N,4° 50′E,NA,NA,NA,France,NA,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Xylocopa virginica,gbif:1342108,body size,body length,http://purl.obolibrary.org/obo/HAO_0002413,NA,NA,species,21.6,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Xylocopa virginica,gbif:1342108,body size,front wing length,NA,NA,NA,species,18.3,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Xylocopa virginica,gbif:1342108,pilosity,hair coverage,http://purl.obolibrary.org/obo/HAO_0001990,NA,NA,species,50-75,mean,percentage,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Cunningham‐Minnick, M. J., Peters, V. E., & Crist, T. O. (2020). Bee communities and pollination services in adjacent crop fields following flower removal in an invasive forest shrub. Ecological Applications, 30(4), e02078.",https://doi.org/10.1002/eap.2078,Xylocopa virginica,gbif:1342108,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,distance between tegulae,NA,species,6.2,mean,mm,2,NA,NA,NA,NA,early spring 2013,NA,female,adult,private lands in southeast Indiana and southwest Ohio,39.422° N; 39.539° N; 39.572° N; 39.645° N; 39.666° N,84.897° W; 84.760° W; 84.801° W; 84.701° W; 84.788° W,NA,NA,NA,USA,Indiana; Ohio,NA,NA
"Graham, K. K., Gibbs, J., Wilson, J., May, E., & Isaacs, R. (2021). Resampling of wild bees across fifteen years reveals variable species declines and recoveries after extreme weather. Agriculture, Ecosystems & Environment, 317, 107470.",https://doi.org/10.1016/j.agee.2021.107470,Xylocopa virginica,gbif:1342108,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,6.07,mean,mm,NA,NA,NA,NA,NA,15-May,NA,NA,adult,"southwestern Michigan, in Allegan, Van Buren, and Ottawa counties",NA,NA,NA,NA,NA,USA,Michigan,Allegan; Van Buren; Ottawa,NA
"Turo, K. J., Spring, M. R., Sivakoff, F. S., Delgado de la flor, Y. A., & Gardiner, M. M. (2021). Conservation in post‐industrial cities: How does vacant land management and landscape configuration influence urban bees?. Journal of Applied Ecology, 58(1), 58-69.",https://doi.org/10.1111/1365-2664.13773,Xylocopa virginica,gbif:1342108,body size,undefined,NA,NA,NA,species,20,community-weighted mean,mm,NA,NA,NA,NA,NA,June 2015 to August 2016,NA,NA,adult,Cleveland,NA,NA,NA,NA,NA,USA,Ohio,NA,NA
"Giannini, T. C., Costa, W. F., Borges, R. C., Miranda, L., da Costa, C. P. W., Saraiva, A. M., & Imperatriz Fonseca, V. L. (2020). Climate change in the Eastern Amazon: crop-pollinator and occurrence-restricted bees are potentially more affected. Regional Environmental Change, 20(1), 9.",https://doi.org/10.1007/s10113-020-01611-y,Xylocopa viridis,gbif:1342278,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,4.5,mean,mm,11,NA,NA,NA,216,NA,NA,NA,adult,Carajás National Forest,5° 52′ 11″ to 6° 32′ 13″ S,49° 53′ 28″ to 50° 44′ 29″ W,NA,NA,NA,Brazil,NA,NA,NA
"Grab, H., Branstetter, M. G., Amon, N., Urban-Mead, K. R., Park, M. G., Gibbs, J., Blitzer, E. J., Poveda, K., Loeb, G., & Danforth, B. N. (2019). Agriculturally dominated landscapes reduce bee phylogenetic diversity and pollination services. Science, 363(6424), 282�284. https://doi.org/10.1126/science.aat6016",https://doi.org/10.1126/science.aat6016,Xylocopa_virginica,gbif:1342108,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,NA,NA,species,5.711733333,mean,mm,NA,NA,NA,NA,NA,2008 - 2017,NA,female,adult,New York State apple orchards,NA,NA,NA,NA,NA,USA,New York,NA,agricultural
"Hamblin, A. L., Youngsteadt, E., & Frank, S. D. (2018). Wild bee abundance declines with urban warming, regardless of floral density. Urban Ecosystems, 21(3), 419�428. https://doi.org/10.1007/s11252-018-0731-4",https://doi.org/10.1007/s11252-018-0731-4,Xylocopa_virginica,gbif:1342108,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,species,6.6,mean,mm,NA,NA,NA,NA,NA,summer 2014 - 2015,NA,female,adult,"residential yards in Raleigh, NC",NA,NA,NA,NA,NA,USA,New York,NA,urban residential
"Kazenel, M. R., Wright, K. W., Griswold, T., Whitney, K. D., & Rudgers, J. A. (2024). Heat and desiccation tolerances predict bee abundance under climate change. Nature, 628(8007), 342�348. https://doi.org/10.1038/s41586-024-07241-2",https://doi.org/10.1038/s41586-024-07241-2,Zacosmia maculata,gbif:1342790,body size,ITD,http://purl.obolibrary.org/obo/HAO_0002584,"Cane, J. H. (1987). Estimation of bee size using intertegular span (Apoidea). Journal of the Kansas Entomological Society, 145-147.",NA,single observation,1.835,mean,mm,NA,NA,NA,NA,NA,2012,NA,F,adult,Sevilleta National Wildlife Refuge,NA,NA,NA,NA,NA,USA,New Mexico,NA,shrubland; grassland